Animal Waste Management Plan for Ankeridge Dairy c/o Cornelius and Gerritt Anker 8680 Sollie Smith Road Tillamook, OR 97141 (503) 815-1766 Prepared by: Tom Thomson Northwest Ag Consulting Dallas, OR (503) 510-3883 Ankeridge Dairy Ankeridge Dairy 2014 2014 Animal Waste Management Plan Animal Waste Management Plan TABLE OF CONTENTS SECTION 1 – GENERAL INFORMATION  Signature Page ............................................................................................. 1-1  Background and Site Information .................................................................. 1-2  Manure Storage and Nutrient Balance Summary .......................................... 1-5  Emergency Response Plan ........................................................................... 1-6  Farm Location Map ....................................................................................... 1-7  Farm Topography Map .................................................................................. 1-8 SECTION 2 – PRODUCTION AREA  Number of Animals ........................................................................................ 2-1  Animal Mortality Management ....................................................................... 2-1  Collection of Manure, Process Water and Runoff ......................................... 2-1  Treatment Facilities ....................................................................................... 2-2  Storage Facilities ........................................................................................... 2-2  Transfer of Manure, Process Water and Runoff ............................................ 2-2  Operation and Maintenance Considerations ................................................. 2-3  Production Area Map(s) ................................................................................ 2-8 SECTION 3 – UTILIZATION AREA  Cropping System ........................................................................................... 3-1  Field Map(s) .................................................................................................. 3-2  Application..................................................................................................... 3-6  General Considerations for Making Manure Applications.............................. 3-6  Setback Requirements .................................................................................. 3-7  Considerations for Dry Season Manure Applications .................................... 3-7  Setback Map(s) ............................................................................................. 3-9  Considerations for Wet Season Manure Applications ................................. 3-13  Manure and Soil Sampling Frequency ........................................................ 3-14  How to Sample Liquid Manure .................................................................... 3-14  How to Sample Solid Manure ...................................................................... 3-14  Manure Tests .............................................................................................. 3-17  How to Sample Soils ................................................................................... 3-19  Soil Tests .................................................................................................... 3-21  How to Calibrate Application Equipment ..................................................... 3-23  Amount of Manure to Apply for Crops Grown .............................................. 3-27  Irrigation Water Management ...................................................................... 3-35 SECTION 4 – SOIL AND RISK ASSESSMENT  Soil Map(s) .................................................................................................... 4-1  Soil Reports................................................................................................... 4-5  Predicted Soil Erosion ................................................................................. 4-23  Phosphorus Index ....................................................................................... 4-31 Ankeridge Dairy AWMP Page i of ii TABLE OF CONTENTS SECTION 5 – REFERENCES  Application for Modification of Animal Numbers ............................................ 5-1  Notice of Registration and Oregon CAFO General Permit Summary ............ 5-3  Oregon Confined Animal Feeding Operation General Permit Number 1 ..... 5-11  Publications and Software ........................................................................... 5-27  ORAWM Workbook ..................................................................................... 5-29 Ankeridge Dairy AWMP Page ii of ii Section 1 GENERAL INFORMATION Farm contact information: Ankeridge Dairy c/o Cornelius and Gerritt Anker 8680 Sollie Smith Road Tillamook, OR 97141 (503) 815-1766 Physical Location: Anker 1- 8680 Sollie Smith Road Anker 2- 1450 Olsen Road Anker 3- 1205 Miller St Aufdermauer- 1735 Wilson River Loop Rd Tillamook, OR 97141 Animal Feeding Operation: Current- Small/Medium Confined CAFO Planned- Large Concentrated CAFO Type & Size: Dairy: Current- 1,610 animals Planned- 1,750 animals Latitude/Longitude: Anker 1- N45.47730, W123.77540 Anker 2- N45.46940, W123.78910 Anker 3- N45.44550, W123.83480 Aufdermauer- N45.47320, W123.82750 AWMP Plan Approval I certify that I have reviewed this AWMP for technical adequacy and that the elements of the documents are technically compatible, reasonable and can be implemented. Signature: ____________________________ Name: Tom Thomson Title: Individual TSP Date: _____________ Number: TSP-03-1132 Owner/Operator As the owner/operator and decision maker for the Ankeridge Dairy I understand that I am responsible for this AWMP being implemented in a timely manner and keeping all the necessary records for the operation and management of the animal waste management system. Signature: ____________________________ Date: _____________ Name: Cornelius or Gerritt Anker for Ankeridge Dairy Ankeridge Dairy AWMP Page 1-1 Section 1 GENERAL INFORMATION BACKGROUND AND SITE INFORMATION Ankeridge Dairy is located about a mile east of Tillamook, OR on 8680 Sollie Smith Road. The dairy is currently permitted for a total of 1,610 animals at 4 facilities: Anker 1 – 795 animals Anker 2 – 340 animals Anker 3 – 400 animals Aufdermauer – 240 animals (rented) but seeks to increase to 1,750 animals: Facility Anker 1 Anker 2 Anker 3 Aufdermauer Totals- Tract 58 294 321/593 8/346 Acres 85.3 102.6 109.2 106.8 403.9 Milker 700 300 0 0 1,000 Dry Cow 0 0 0 200 200 Heifers 50 0 0 0 50 Calves 50 50 400 0 500 Total 800 350 400 200 1,750 A request for a modification in the permitted animals for Ankeridge Dairy is located at the beginning of Section 5. From birth, the calves will be housed at Anker 1, then transferred to Anker 2 at 1-2 months of age. The Anker 3 facility will house calves until they weigh about 500 lbs when they will be shipped to a rearing facility to be raised to maturity and bred. Prior to parturition, about seven months pregnant, the heifers will be brought back and kept at one of the facilities in a maternity pen until birthing then moved to Anker 1 or 2 for milking. The milking cows will be confined 365 days. The dry cows and younger heifers may be grazed based on weather conditions, livestock health, economic conditions, and excessive forage production during the year. Livestock mortality service is provided by the Tillamook County Creamery Association. As noted above, the operation consists of four facilities which will be used, in conjunction with one another to best manage the cows housing needs at various growth stages and the fields at those facilities for maximizing forage composition and yield. The Coastal climate allows for a base forage production level of approximately 6 tons/acre of DM per year based on minimal management. With an intensive level of management, the fields may produce as much as 8-10 ton/acre DM annually. However, this is only an estimate and depends upon intensive management coupled with favorable weather conditions. Anker 1 (T58 8680 Sollie Smith Road) This facility is the main milking operation and is comprised of 85.3 tillable acres. The cows are housed in free stall barns, the calves in hutches, and the springing heifers in a bedded pack barn. The barns are scraped daily to underground tanks from which manure is removed 3-4 times per day by the Port of Tillamook Digester (POTD) tanker truck. The POTD truck deposits returned manure into any of the liquid storage tanks at Ankeridge Dairy AWMP Page 1-2 Section 1 GENERAL INFORMATION any one of the four facilities until applied to the fields. The solids are removed and retained by the digester. Anker 2 (T294 1450 Olsen Road) This facility is the secondary milking operation and is comprised of 102.6 tillable acres. The cows are housed in free stall barns and the calves in loose housing. The barns are scraped daily to underground tanks from which manure is removed 1 times per day by the Port of Tillamook Digester (POTD) tanker truck. The POTD truck deposits returned manure into any of the liquid storage tanks at any one of the four facilities until applied to the fields. The solids are removed and retained by the digester. Anker 3 (T321/593 1205 Miller St) This facility will house mainly older calves and is comprised of 109.2 tillable acres. The cows are housed in free stall. The barns are scraped as needed to solid storage and any liquid seepage from the solids drains into the underground tank. The POTD truck deposits returned manure into any of the liquid storage tanks at any one of the four facilities until applied to the fields. The solids are removed and retained by the digester. Aufdermauer (T8/346 1735 Wilson River Loop Rd) This facility will house dry cows and is comprised of 106.8 tillable acres. The cows are housed in free stall barns. The barns are scraped as needed to a storage slab which is either stored or applied to fields as needed. The POTD truck deposits returned manure into any of the liquid storage tanks at any one of the four facilities until applied to the fields. Manure Handling - All Facilities Stored liquid manure is applied to fields by one or methods including a big gun traveler, a dragline, or a tank wagon at agronomic rates. Solid manure generated by the facility is mainly from calf hutches or the maternity pen. This manure will either be stored onsite for later field application or transported to one of the other facilities for field application based on the time of year and agronomic need. Forage Performance based nutrient management will be employed to insure nutrient balance on all fields. Forage yield will be tracked annually and used to determine the rate of manure application on a per field basis. Manure will be tested annually and tested values will guide application rates. Actual yield varies from year to year depending upon weather conditions and specific field management. Pastures are well managed and in good condition. The combined liquid manure storage for all four facilities is estimated by ORAWM v4.8 to be 2,633,875 gallons and provide 77 days of storage. The total solid manure storage is 91,285 cubic feet and provides 84 days of storage. Ankeridge Dairy AWMP Page 1-3 Section 1 GENERAL INFORMATION The soil concentration of phosphorus ranges from medium to very high in the Ankeridge Dairy hay and pasture land fields. Applications of wastewater and solids containing manure are planned on a nitrogen basis on all fields and the soil phosphorus concentrations will be monitored using soil tests. It is estimated that the dairy produces enough manure to meet the nutrient demand for the hay and pasture land fields. Supplemental nutrient applications to the hay and pasture land fields should be based on soil tests and fertilizer guides to prevent excess soil nutrient concentrations. Ankeridge Dairy AWMP Page 1-4 Section 1 GENERAL INFORMATION MANURE STORAGE AND NUTRIENT BALANCE SUMMARY Manure StorageStorage Type: Estimated Storage Period Capacity Tanks- 358243 CF 77 Days Dry Storage- 91,285 CF 84 Days Nutrient BalanceNutrients Generated: N Generated (lbs) after Losses P2O5 Generated (lbs) after Losses Solid Manure- 6,011 lbs 5,880 lbs Liquid Manure- 151,785 lbs 77,550 lbs Pasture Manure- 0 lbs 0 lbs Total- 157,796 lbs 83,430 lbs Exported Nutrients: N Exported (lbs) after Losses P2O5 Exported (lbs) after Losses Solid Manure- 0 lbs 0 lbs Liquid Manure- 0 lbs 0 lbs Total- 0 lbs 0 lbs Crop Nutrient Removal: Total- Net Nutrients: N Utilized (lbs) P2O5 Utilized (lbs) 163,983 lbs Nutrients Generated after Losses(lbs.) 51,819 lbs Nutrients Removed by Crop and Exported after Losses (lbs) Net Nutrient Balance after Losses (lbs) Nitrogen (N)- 157,796 lbs 163,983 lbs -6,187 lbs Phosphate (P 2O5)- 83,430 lbs 51,819 lbs 31,611 lbs System Losses: Nutrients Generated (lbs) Nutrients Remaining after Losses (lbs) Nutrients Lost in System (lbs) Nitrogen (N)- 345,476 lbs 157,796 lbs 187,680 lbs Phosphate (P 2O5)- 97,769 lbs 83,430 lbs 14,339 lbs Ankeridge Dairy AWMP Page 1-5 Section 1 GENERAL INFORMATION EMERGENCY RESPONSE PLAN In Case of an Emergency Storage Facility Spill, Leak or Failure Implement the following first containment steps: a. Stop all other activities to address the spill. b. Stop the flow. For example, use skid loader or tractor with blade to contain or divert spill or leak. c. Call for help and excavator if needed. d. Complete the clean-up and repair the necessary components. e. Assess the extent of the emergency and request additional help if needed. In Case of an Emergency Spill, Leak or Failure during Transport or Land Application Implement the following first containment steps: a. Stop all other activities to address the spill and stop the flow. b. Call for help if needed. c. If the spill posed a hazard to local traffic, call for local traffic control assistance and clear the road and roadside of spilled material. d. Contain the spill or runoff from entering surface waters using straw bales, saw dust, soil or other appropriate materials. e. If flow is coming from a tile, plug the tile with a tile plug immediately. f. Assess the extent of the emergency and request additional help if needed. Contacts to be made by the owner or operator within 24 hours Organization Oregon Dept. of Agriculture Natural Resources Division 635 Capitol St., N.E. Salem, OR 97301-2532 Oregon Emergency Response (System OERS) County Environmental Health Department County Roads Department Phone Number (503) 986-4700 TTD (503) 986-4762 (800) 452-0311 (503) 842-3943 Be prepared to provide the following information: a. Your name and contact information. b. Farm location (driving directions) and other pertinent information. c. Description of emergency. d. Estimate of the amounts, area covered, and distance traveled. e. Whether manure has reached surface waters or major field drains. f. Whether there is any obvious damage: employee injury, fish kill, or property damage. g. Current status of containment efforts. Ankeridge Dairy AWMP Page 1-6 Sec?on1 GENERAL INFOHMA TION LOCATION MAP FOR ANKERIDGE DAIRY I o- -f a Sallgg/uo? sin. '1 I 1:2" I I . Rainy?; I p. 3:21" a? 4 (gm A ?lial/1995: L?a "y?Ju (7392% Data use subject to license. DeLorme. Topo North AmericaTM 10. Ankeridge Dairy AWMP r, Uf r\ :M?i "i If); I, "7 a. . ?v ?Nun?, . I 1434?, I ,y Mill/I51, Al" a: .1 ?77,172), (lg. -1- . ?ns? 9/ (113.JFm/{tk'. 1' 3.16 mi Data Zoom 10-0 ?(15.91) Page1-7 Section 1 GENERAL INFORMATION TOPOGRAPHY MAP FOR ANKERIDGE DAIRY Ankeridge Dairy AWMP Page 1-8 Section 1 I RD 5 Ming?r Data use subject to license. DeLorme. Topo North AmericaTM 10. wmm.de orme.com 1" 1,000.0 ft Data Zoom 14-0 Ankeridge Dairy AWMP Page 1-9 Section 1 GENERAL INFOHMA TION 11? - - EWIILSOIIHRIVER, 5 - ParH LEAMOUK MATEEJECK Data use subject to license. DeLorme. Topo North AmericaTM 10. ,3 mmdelormecom j?mw?ew 5? - Err/?i? 1" 1,000.0 ft Data Zoom 13-7 Ankeridge Dairy AWMP Page 1?10 Section 1 GENE RA INF ORMA TION - ?0 .. Soug I Data use subject to license. Scale 1 12,000 I ?11] DeLorme. Topo North AmericaTM 10. n?Z?Z??m an Wdelorme?om 1" 1,000.0 ft Data Zoom 14-0 Ankeridge Dairy AWMP page 141 Section 1 GENERAL INFORMA TION Ankeridge Dairy AWMP Page 1?12 Section 2 PRODUCTION AREA ANIMAL NUMBERS Ankeridge Dairy is currently permitted for a total of 1,610 animals at 4 facilities: Anker 1 – 795 animals Anker 2 – 340 animals Anker 3 – 400 animals Aufdermauer – 240 animals (rented) but seeks to increase to 1,750 animals. A request for a modification in the permitted animals for Ankeridge Dairy is located at the beginning of Section 5. This plan was written based on the 1,750 animals and land base described herein. ANIMAL MORTALITY MANAGEMENT Currently animal mortalities for the Ankeridge Dairy are being disposed of by a service provided by the Tillamook Creamery Association. Other methods of dealing with mortalities may be employed by Ankeridge Dairy as needed. Having dead animals sent to an acceptable disposal site is the best method to deal with animal mortalities. A list of landfills and phone numbers can be found on the internet at http://www.deq.state.or.us/lq/sw/disposal/permittedfacilities.html. If a local landfill is not permitted to accept animal carcasses, the Oregon Department of Environmental Quality (DEQ) may grant an exception. Phone numbers to local DEQ offices can be found in most phone books or on the internet at http://www.deq.state.or.us/about/locations.html. Under no circumstances are animal mortalities to be disposed of in any type of liquid manure storage facility. COLLECTION OF MANURE, PROCESS WATER AND RUNOFF Manure, bedding and wasted feed are collected in the barns. The estimated volume of Manure bedding and wasted feed that will be collected annually was generated using the ORAWM workbook located in Section 5. Leachate and rainfall runoff from the silage and solids storage areas is directed to catch basins that drain to wastewater collection tanks via underground pipelines. The estimated volumes of leachate and rainfall runoff from the silage and solid storage areas that will be collected annually were generated using the ORAWM workbook located in Section 5. Rainfall runoff from paved and unpaved areas that comes into contact with animal manure is directed to catch basins that drain to the wastewater collection tanks. The estimated volume of rainfall runoff that will be collected annually was generated using the ORAWM workbook located in in Section 5. All rainfall runoff from roofs is collected using gutters and downspouts and directed to drainage ditches using underground pipelines. All process water from the dairy operation is directed to catch basins that drain to wastewater collection tanks. The estimated volume of process water that will be collected annually was generated using the ORAWM workbook located in Section 5. Ankeridge Dairy AWMP Page 2-1 Section 2 PRODUCTION AREA TREATMENT FACILITIES Wastewater containing manure is treated at the Port of Tillamook Digester and returned to the farms for utilization as a nutrient source. STORAGE FACILITIES The underground reinforced concrete collection tanks on the farms are used to collect wastewater containing manure for temporary storage. Capacities and estimate volumes to store for the waste storage facilities can be found on the storage worksheet in the ORAWM workbook located in Section 5. TRANSFER OF MANURE, PROCESS WATER AND RUNOFF Wastewater, manure, bedding and wasted feed from the livestock barns is scraped to underground collection tanks shown on the Production Area Map on page 2-8. Wastewater containing manure is transferred from the underground collection tanks to the Port of Tillamook Digester for treatment each week. After the liquid manure has completed the digestion process it is returned to the storage tanks so there is no net loss of volume. The digested manure may be returned to any of the collection or storage tanks shown on the shown on the Production Area Map on page 2-8 as needed to improve storage conditions. The solids removed from the livestock barns are transferred to the solids storage facilities shown on the Production Area Map on page 2-8. Wastewater stored in the wastewater storage tanks is transferred to the hay and pasture land fields to be utilized as a source of nutrients. Traveling big gun irrigation systems, tank wagons and drag hose application equipment are used to apply the wastewater to the hay and pasture land fields. Solids stored in the solids storage facilities are hauled to the hay and pasture land fields and applied using a solids spreader to be utilized as a source of nutrients. Ankeridge Dairy AWMP Page 2-2 Section 2 PRODUCTION AREA OPERATION AND MAINTENANCE CONSIDERATIONS WASTEWATER COLLECTION AND STORAGE TANKSThe wastewater collection and storage tanks are used to store wastewater containing manure generated by the Ankeridge Dairy. The storage capacity and estimated storage period for the wastewater collection and storage tanks are shown on the ORAWM workbook storage worksheet located in Section 5. Emptying of the wastewater collection and storage tanks should begin in the spring and continue through the spring and summer months as weather conditions permit applying wastewater in accordance with the guidance given in Section 3, Utilization Area. To function properly and have the greatest management flexibility, the wastewater collection and storage tanks must be as empty as possible in the fall before the fall and winter rainy season begins. Any annual buildup of solids in the wastewater collection and storage tanks must be removed to maintain design capacity and applied to land application areas in accordance with guidance given in Section 3, Utilization Area. Inspect all tanks weekly to insure structural integrity. If the structural integrity of a tank is compromised, immediately empty the tank to determine the cause and make necessary repairs before putting the tank back into service. Do not allow equipment that exceeds the design limit of the tanks on or within 20 feet of the structure. Inspect all uncovered tanks on a biweekly basis to insure at least 1 foot of freeboard is being maintained to accommodate excess rainfall such as a 25 year-24hour storm and prevent overtopping of the tank. Keep pumps, agitators, piping, valves and all other electrical and mechanical equipment in good condition by following the manufacturer’s recommendations. Maintain grounding rods and wiring for all electrical equipment in good condition. Immediately remove all foreign debris within the structure that may cause damage to pumps or agitators. Pump the wastewater collection and storage tanks completely empty during the summer months and cleanout any debris and other solid materials that may have accumulated in the tanks. Inspect the tanks for structural damage and if structural damage to a tank is discovered seek the services of a qualified engineer to assess the damage and recommend necessary repairs before putting the tank back into service. Follow the guidance given in Section 3, Utilization Area, when applying wastewater to fields. Do not dispose of animal carcasses in any wastewater storage tank. It is against the law to do so. Maintain all fences, railings, and/or warning signs to provide warning and/or prevent unauthorized human or livestock entry. Immediately repair vandalism, vehicular or livestock damage to the structure, earthen areas surrounding the structure, or any appurtenances. Maintain lids, grates and shields on openings. Provide proper ventilation before entering the tank, for any reason what so ever. Provide and use self - contained breathing apparatus (scuba) equipment when entering a tank. No persons should enter the tank unless safety ropes are used and someone else capable of providing rescue assistance is outside the tank. Do not assume any tank, including open top tanks, are well ventilated. Ankeridge Dairy AWMP Page 2-3 Section 2 PRODUCTION AREA SOLIDS STORAGE FACILITYThe solids storage facilities are used to store solids containing manure generated by the Ankeridge Dairy. The storage capacity and estimated storage period for the solids storage facilities are shown on the ORAWM workbook storage worksheet located in Section 5. Emptying of the solids storage facilities should begin in the spring and continue through the spring and summer months as weather conditions permit applying solids in accordance with the guidance given in Section 3, Utilization Area. To function properly and have the greatest management flexibility, the solids storage facilities must be as empty as possible in the fall before the fall and winter rainy season begins. Periodically inspect concrete and asphalt slabs, walls and curbs and repair or replace broken sections as needed. Cleanup any spillage of manure and organics from outside of the solids storage area and place them back in the solids storage facility. Maintain all fences, railings, and/or warning signs to provide warning and/or prevent unauthorized human or livestock entry. Immediately repair vandalism, vehicular or livestock damage to the structure, earthen areas surrounding the structure, or any appurtenances. BUILDING ROOFSInspect building roofs annually as a minimum. Repair and/or replace all rusted sections and secure loose sections as needed. Immediately replace all broken trusses, rafters, beams, poles as needed. Immediately determining the cause and necessary modification(s) to prevent reoccurring structural failure is essential. FENCESDo not allow livestock access to open water courses and drainageways. Provide off stream watering facilities where possible and limit access to designated watering areas. Inspect fences periodically and repair or replace broken or decayed posts and tighten sagging wire as needed. Broken wire can be spliced or replaced. Replace broken or missing insulators on electric fences as needed and repair or replace inoperative electric fence controllers. Insure gates and other appurtenances are in good working order. Replace or repair components as needed. IRRIGATION SYSTEMSMaintain sprinkler irrigation systems in accordance with the manufacturer’s recommendations to help ensure trouble free operation. Prevent livestock access to equipment during operation. Clean plugged nozzles and replace if worn or defective. Promptly repair all leaks by replacing valves, fittings, gaskets, worn or damaged parts. Prompt repair or replacement of damaged or worn components is necessary. Check to make sure all application components i.e. water control structures, gates, valves, ditches, etc. are functional and are in good operating condition. Ankeridge Dairy AWMP Page 2-4 Section 2 PRODUCTION AREA Maintain screening and filtering facilities. Maintain vigorous vegetative growth where applicable. LIVESTOCK WATERING FACILITIESCheck all above ground connections, valves, gates, rodent guards, inlets and outlets to make sure they are functioning properly. Check troughs and tanks for leaks or cracks and repair or replace immediately, if necessary. Make certain the area adjacent to the trough is well protected with gravel, paving, or good cover. Be sure that the outlet pipe has a free outlet and is not causing any serious erosion problems. Check periodically to see if debris has fallen into the trough or tank which may restrict inflow or planned functions of the outflow system. Clean the entire system periodically and remove moss, algae growth, and/or sludge. Chemicals such as copper sulfate and chlorine can be used to prevent moss and algae growth. Local rules and regulations are to be followed when using chemicals to make sure they are safe for animals. Where necessary maintain coverings and insulation to prevent damage by freezing. Eradicate or otherwise remove all rodents or burrowing animals. Immediately repair any damage caused by their activity. Immediately repair any vandalism, vehicular or livestock damage. PIPELINESFlush pipelines used for liquid waste applications with clean water following waste application, or as needed, to prevent particle buildup. Drain the pipeline and components in areas that are subject to freezing. If parts of the pipeline cannot be drained, a non-toxic antifreeze solution may be added. Check to make sure all valves and air vents are set at the proper operating condition so they can provide protection to the pipeline. Inspect pipelines for signs of failure. Inspect risers and valves periodically for leaks or worn gaskets. Repair or replace pipeline, risers and valves as needed. Eradicate or otherwise remove all rodents or burrowing animals. Immediately repair any damage caused by their activity. PUMPSOperate and maintain pumps in accordance with good judgment and manufacture’s manuals and recommendations. Drain liquid manure from pumps during cold weather to prevent freezing. If parts of the system cannot be drained, a non-toxic antifreeze solution may be added. Inspect pumps periodically and remove debris wrapped around shafts and impellers. Maintain foot valves and check valves for proper operation. For proper operation of electric motors and controls, maintain lubrication for all bearings, keep electric panel free from obstructions and debris. Maintain electrical Ankeridge Dairy AWMP Page 2-5 Section 2 PRODUCTION AREA safety devices, assure all electrical contacts are tight, and lock main electrical switch to “OFF” position during non-use season. Maintain adequate shade and ventilation for pump motors. For proper operation of pumps, maintain lubrication for all bearings and pump shafts, assure belts are adjusted properly, maintain safety covering devices on open shafts and belt drives, check to make sure all safety valves and devices are set at proper operating conditions so they may provide protection to the pump and power unit. For centrifugal pumps, periodically measure tolerance between pump impeller and pump casing (i.e. wearing) and replace wear ring as needed to help restore new pump operating characteristics. Use portable pressure gauge (preferably a liquid filled gauge) to monitor pump performance. Operate and maintain agitators in accordance with the manufacture’s manual and recommendations. Inspect all plumbing annually as a minimum. Replace, tighten, or repair broken or loose connections and lines as needed. WELL(S)Protect the area immediately surrounding the well from being damaged by agriculture machinery, vehicles, or livestock. All fences, railings, and/or warning signs shall be maintained to provide warning and/or prevent unauthorized human or livestock entry. Do not allow any foreign debris to accumulate and maintain soil and vegetative covering in the immediate vicinity of the well. Eradicate or otherwise remove all rodents or burrowing animals. Immediately repair any damage caused by their activity. Check metal surfaces for rust and other damage especially sections in contact with earthfill and with other materials. Repair or replace damaged section and apply paint as a protective covering. Keep all surface water from entering or accumulating at the immediate vicinity of the well site. Immediately repair any vandalism, vehicular, or livestock damage. Ankeridge Dairy AWMP Page 2-6 Section 2 PRODUCTION AREA CHEMICAL HANDLING CHECKLISTThe following measures shall be taken to prevent chemicals from contaminating process water or storm water storage and treatment systems: 1. Make sure all chemicals are stored in proper containers. Expired chemicals and empty containers are to be properly disposed of in accordance with state and federal regulations. Pesticides and associate refuse are to be disposed of in accordance with the FIFRA label. 2. Chemical storage areas are to be self-contained with no drains or other pathways that will allow spilled chemicals to exit the storage area. 3. Chemical storage areas are to be covered to prevent chemical contact with rain or snow. 4. Emergency procedures and equipment are to be in place to contain and clean up chemical spills. 5. Chemical handling and equipment wash areas are to be designed and constructed to prevent contamination of surface waters, waste water, and storm water storage and treatment systems. Ankeridge Dairy AWMP Page 2-7 Section 2 PRODUCTION AREA PRODUCTION AREA MAP FOR ANKERIDGE DAIRY Ankeridge Dairy AWMP Page 2-8 Section 2 PRODUCTION AREA ANKERIDGE DAIRY Solid I Manure . Parlor .n NORTH SCALE: 1 inch 80 feet GIS Mapping by Northwest Ag Consulting Ankeridge Dairy AWMP Section 2 PRODUCTION AREA AERID ETJI RY Anker Parlor Solid Manure 30x81x8 Barn a U6 Tank A NORTH SCAL: feet GIS Mapping by orthwest Consultinh Ankeridge Dairy AWMP Page 2-10 Section 2 PRODUCTION AREA AN KERIDGE DAIRY Aufdermauer HQ . NORTH SCALE: 1 inch 160 feet GIS Mapping by Northwest Ag Consulting Ankeridge Dairy AWMP Page 2-11 Section 2 PRODUCTION AREA Ankeridge Dairy AWMP Page 2?1 2 Section 3 UTILIZATION AREA CROPPING SYSTEM The acres of hay and pasture land area available for utilization of the nutrients and organics contained in the wastewater and solids produced from the Ankeridge Dairy is shown on the utilization worksheet in ORAWM located in Section 5. Yield data and nutrient utilization rates for the crops grown are also shown on the inventory worksheet in ORAWM located in Section 5. Irrigated and nonirrigated crop yield data from the Tillamook County Soil Survey referenced in Section 5 indicates the yield data used in developing this plan is within the range of the given crop yields for well managed fields. Traveling big gun sprinkler irrigation systems are used to irrigate and apply wastewater containing manure and other organics produced from the Ankeridge Dairy to the hay and pasture land fields. These systems use single large sprinkler nozzles usually mounted on a cart with wheels that is attached to a high density polyethylene pipeline that is rolled up on a large reel that provides a constant travel speed for the sprinkler. These systems apply water depending on the nozzle size, operating pressure and travel used and have an efficiency of 65 to 75 percent. Traveling big gun sprinkler systems must be well managed to prevent excess percolation, surface runoff, wind drift and evaporation losses. The amount of irrigation water to apply based on the net irrigation requirements for the crop being grown can be found in the tables starting on page 3-37. Ankeridge Dairy AWMP Page 3-1 Section 3 TILIZA TION AREA FIELD MAPS ANKERIDGE DA Anker1 Fields GIS Mappng by Northwest Ag Consulting Ankeridge Dairy AWMP Section 3 TILIZA TION AREA ANKERIDGE DAIRY SCALE: 1 inch 400 feet GIS Mapping by Northwest Ag Consulng Ankeridge Dairy AWMP Section SCALEGIS Mapping by Newest AgConsultinh 4 i; Ankeridge Dairy AWMP Section 3 TILIZA TION AREA .- KERIDGAIRY emer Fields 1 SCALE: 1 inch 400 feet GIS Mapping by Northwest Ag Consulting Ankeridge Dairy AWMP Section 3 UTILIZATION AREA APPLICATION The manure and irrigation application systems will be calibrated in accordance with guidance starting on page 3-6 to insure the applications of manure, bedding and runoff from the waste storage facilities are in accordance with agronomic rates. No application of wastewater or solids containing manure is to be made to the field setback areas shown on the Setback Map on page 3-9. Applications of wastewater and solids containing manure should be made in accordance with guidance starting on page 3-6 to reduce the risk of contaminated runoff to surface water sources and leaching of contaminants to ground water sources. The phosphorus runoff rating for each of the farm fields is based on the Western Oregon Phosphorus Index and is shown in the table on page 4-31. Wastewater, solids and commercial fertilizer for any field with a high runoff rating must be applied on a phosphorus basis. Wastewater, solids and commercial fertilizer for any field with a low or medium runoff rating can be applied on a nitrogen basis. No applications manure or commercial fertilizer containing phosphorus are to be made on a field with a very high phosphorus runoff rating. GENERAL CONSIDERATIONS FOR MAKING MANURE APPLICATIONS Manure applications may be made at any time of the year provided certain factors have been considered. However, the overriding factor one should use in considering whether or not to apply nutrients to a crop, irrespective of the nutrient source, is the agronomic need of the crop at the time of application. The following guidelines are to be considered once the decision has been made to make a manure application.  Manure applications may commence once T-Sum 200 has been reached for the calendar year as long as you can comply with all other permit and AWMP requirements. Calculations for T-Sum 200 are outlined in OSU Extension Fertilizer Guide for Pastures (OSU FG63, 2000). T-Sum 200 is based on accumulated heat units and is an accurate guide to estimate plant activity. Research has shown that TSum 200 is the earliest date when plant roots begin to grow in the spring and thus are receptive to applied nutrients. Surface air temperature is monitored and the daily minimum and maximum air temperatures are summed and divided by two the get the average daily air temperature then converted to centigrade (F degrees minus 32 times 0.556). Manure applications may begin once 200 heat units have been accumulated. The average date of T-Sum 200 for Ankeridge Dairy is January 30th for the 30 year average from 1981-2010. However, one must still apply manure at agronomic rates based on the estimated growth potential of the crop and anticipated climatic events. Based on crop nutrient uptake patterns, manure applications should stop when the crop is done growing for the year and before the first significant rainfall event that is expected to result in saturated soils or surface runoff. Ankeridge Dairy AWMP Page 3-6 Section 3 UTILIZATION AREA  Fields that are subsurface (TILE) drained require additional precautions when manure is applied. Any pre-application tillage should leave as much residue as possible on the soil surface. Water control structures installed in subsurface drainage systems should be managed to prevent discharge of manure and wastewater during periods of application.  Be aware of the location of sensitive areas, concerns of neighbors or concerns of the public, which require special application procedures. To reduce odor problems, apply wastewater and solids containing manure in mid-morning when temperatures are warming and air is rising rather than in the afternoon or evening when air is cooling and settling. Avoid applications during periods of fog.  Calibrate application equipment to insure uniform distribution and accurate application rates in accordance with guidance given in the Considerations for Manure Applications starting on page 3-7. Refer to page 3-23 for guidance on the calibration of application equipment.  Maintain setbacks for manure application from any surface waters. The management goal is not to allow manure to enter surface waters at any time. The following table shows minimum setback requirements for manure applications: Season Manure type Liquid Liquid Liquid Solid Application Equipment Big gun Tank Wagon Drag Hose Spreader Wet Dry 70 feet 70 feet 70 feet 70 feet 35 feet 20 feet 20 feet 20 feet Note: a. Setbacks are the distance between open waterways and manure application area. b. Setback requirements will generally increase for manures which are applied aerially (such as a traveling big gun) versus manures applied lower to the ground (such as a splash bar) due to potential for drift from wind or splashing.  Record applications, transfers or exports of nutrients (manure and fertilizer) and maintain them for at least 5 years. The CAFO Recordkeeping Calendar or the tools and forms referenced in Section 5 may be used to record this information. Ankeridge Dairy AWMP Page 3-7 Section 3 UTILIZATION AREA CONSIDERATIONS FOR DRY SEASON MANURE APPLICATIONS: Apply wastewater and solids containing manure at agronomic rates shown on the table on page 3-27 using the following guidelines:  Begin making manure applications once 200 heat units (T-Sum 200) have been accumulated. The average date of T-Sum 200 for Ankeridge Dairy is January 30th for the 30 year average from 1981-2010.  Apply to land being prepared for crops. Till manure into soil within 3 days of application if possible or apply to actively growing crops such as grass, clover or alfalfa after cutting.  Do not apply during rainfall events that are expected to result in saturated soils or surface runoff.  Maintain the setback distances described on page 3-7 and shown on the Setback Map on page 3-9 when making applications of liquids or solids containing manure.  Record applications, transfers or exports of nutrients (manure and fertilizer) and maintain them for at least 5 years. The CAFO Recordkeeping Calendar or the tools and forms referenced in Section 5 may be used to record this information. Ankeridge Dairy AWMP Page 3-8 Section 3 TILIZA TION AREA SETBACK MAPS FOR ANKERIDGE DAIRY v79! ANKERIDGE DA Anker 1 Buffers GIS Mpping by Northwest Ag Consulting Ankeridge Dairy AWMP Section 3 TILIZA TION AREA AN KERIDGE DAIRY . NORTH SCALE: 1 inch 400 feet GIS Mapping by Northwest Ag Consulng Ankeridge Dairy AWMP Page 3-10 Section 3 TILIZA TION AREA .ERIDGE DAIRY -, ver 1 Buffers on . .3 .- 3, - Ankeridge Dairy AWMP page 3_11 Section 3 TILIZA TION AREA KERIDGAIRY f3"- Aufdemauer Buffers . I. . NORTH SCALE: 1 inch 500 feet GIS Mapping by Northwest Ag Consulting Ankeridge Dairy AWMP Page 3-12 Section 3 UTILIZATION AREA CONSIDERATIONS FOR WET SEASON MANURE APPLICATIONS: Only apply manure during this time period if the following guidelines CAN be met. Call the ODA CAFO Program at (503) 986-4700 for guidance if a manure application is needed and the following guidelines CAN NOT be met:  Apply manure only to actively growing crops such as grass, clover or alfalfa.  Minimize application rates by using the maximum travel rates for the application equipment.  Maintain the setback distances described in the table on page 3-7 and shown on the Setback Map on page 3-9 when making applications of liquids or solids containing manure.  Do not apply during rainfall events that are expected to result in saturated soils or surface runoff.  Do not apply to saturated or flooded soils. It is recommended that application(s) be limited to soils (areas) where the flooding frequency class rating is None, Very Rare or Rare.  Do not apply to slopes greater than 5%. See the Soil Map in Section 4 for the location of soil map units with slopes greater than 5%.  Applications of wastewater or solids containing manure to frozen soils should be avoided. Do the following if an application of wastewater or solids containing manure is to be made to frozen soils: - Apply only enough wastewater or solids containing manure to address storage limitations until suitable soil conditions for application are available. - Minimize applications to 5 wet tons per acre or less of solids containing manure and 6,788 gallons (0.25 inches) per acre or less of wastewater. - Apply to alternating strips to reduce the risk of contaminated runoff reaching surface water sources. - Apply to fields of established hay, pasture or fields containing at least 90% cover and are the furthest from open water sources. - Do not apply wastewater or solids containing manure within 200 feet of surface water sources, drainageways, wells, or inlets to subsurface drainage systems. - Runoff control systems such as earthen dikes must be in place where applications will be made to fields with slopes greater than 5%.  Record applications, transfers or exports of nutrients (manure and fertilizer) and maintain them for at least 5 years. The CAFO Recordkeeping Calendar or the tools and forms referenced in Section 5 may be used to record this information.  Do not apply manure or commercial fertilizer to fields receiving applications unless the nutrients applied in the manure are less than the annual application of nutrients planned in the nutrient budget for the fields. Ankeridge Dairy AWMP Page 3-13 Section 3 UTILIZATION AREA MANURE AND SOIL SAMPLING FREQUENCY Sample liquids and solids containing manure during applications in early spring annually and have each sample analyzed for Total Nitrogen (TKN), Ammonium Nitrogen (NH 4-N), Phosphorus (P) and Potassium (K) plus percent moisture. Ask the lab to report results in pounds per ton for the solids containing manure and in pounds per thousand gallons for liquids containing manure. Analyses of solids and liquids containing manure should be performed by a laboratory that meets the requirements and performance standards of the Manure Testing Laboratory Certification Program (MTLCP), http://www.mda.state.mn.us/licensing/pestfert/manurelabs.htm. Collect soil samples from all fields receiving solids or liquids containing manure within a 5 year period in the fall (September 15-October 15) in accordance with Pacific Northwest (PNW) Extension publication 570-E, “Monitoring Soil Nutrients Using a Management Unit Approach” referenced in Section 5. Have the soil samples analyzed for Total Nitrogen (TKN) and Phosphorus (P) and ask the lab to report results in parts per million (ppm). Soil test analyses should be performed by laboratories that meet the requirements and performance standards of the North American Proficiency Testing Program (NAPT) Proficiency Assessment Program (PAP); http://www.naptprogram.org/pap/. HOW TO SAMPLE LIQUID MANURE Obtain a composite following one of the procedures listed below and thoroughly mix. Using a plunger, an up-and-down action works well for mixing liquid manure in a five-gallon bucket. Fill a one-quart plastic bottle not more than three-quarters full with the composite sample. Store sample in freezer if not delivered to the lab immediately. Procedure 1. Sampling from storage- Agitate storage facility thoroughly before sampling. Collect at least five samples from the storage facility or during loading using a five-gallon bucket. Place a sub sample of the composite sample in a one-quart plastic container. Sampling a liquid manure storage facility without proper agitation (2-4 hrs. minimum) is not recommended due to nutrient stratification, which occurs in liquid systems. If manure is sampled from a lagoon that was not properly agitated, typically the nitrogen and potassium will be more concentrated in the top liquid, while the phosphorus will be more concentrated in the bottom solids. Procedure 2. Sampling during application- Place buckets around field to catch manure from spreader or irrigation equipment. Combine and mix samples into one composite sub sample in a one-quart plastic container. Ankeridge Dairy AWMP Page 3-14 Section 3 UTILIZATION AREA HOW TO SAMPLE SOLID MANURE Collect a composite sample by following one of the procedures listed below. A method for mixing a composite sample is to pile the manure and then shovel from the outside to the inside of the pile until well mixed. Fill a one-gallon plastic heavy-duty zip lock bag approximately one-half full with the composite sample, squeeze out excess air, close and seal. Store sample in freezer if not delivered to the laboratory immediately. Procedure 1. Sampling while loading - Recommended method for sampling from a stack or bedded pack. Take at least ten samples while loading several spreader loads and combine to form one composite sample. Thoroughly mix the composite sample and take an approximately one pound sub sample using a one-gallon plastic bag. Sampling directly from a stack or bedded pack is not recommended. Procedure 2. Sampling during spreading - Spread a tarp in field and catch the manure from one pass. Sample from several locations and create a composite sample. Thoroughly mix the composite sample together and take a one-pound sub sample using a one-gallon plastic bag. Procedure 3. Sampling daily haul - Place a five-gallon bucket under the barn cleaner 4-5 times while loading a spreader. Thoroughly mix the composite sample together and take a one-pound sub sample using a one-gallon plastic bag. Repeat sampling 2-3 times over a period of time and test separately to determine variability. Procedure 4. Sampling poultry in-house - Collect 8-10 samples from throughout the house to the depth the litter will be removed. Samples near feeders and waterers may not be indicative of the entire house and sub samples taken near here should be proportionate to their space occupied in the whole house. Mix the samples well in a five-gallon pail and take a one-pound sub sample, place it in a one-gallon zip lock bag. Procedure 5. Sampling stockpiled litter - Take ten sub samples from different locations around the pile at least 18 inches below the surface. Mix in a five-gallon pail and place a one-pound composite sample in a gallon zip lock bag. Sample Identification and Delivery Identify the sample container with information regarding the farm, animal species and date. This information should also be included on the sample information sheet along with application method, which is important in determining first year availability of nitrogen. Keep all manure samples frozen until shipped or delivered to a laboratory. Ship early in the week (Mon.-Wed.) and avoid holidays and weekends. Ankeridge Dairy AWMP Page 3-15 Section 3 TILIZA TION AREA Ankeridge Dairy AWMP Page 3?1 6 Section 3 UTILIZATION AREA MANURE TESTS Ankeridge Dairy LIQUID MANURE ANALYSIS Testing performed by AgSource Labs, Umatilla, Oregon Source Sample I.D. Date Unit Total N NH4-N P2O5 K2O Moisture Solids Anker 1 M 7412 10/13/08 % lb/1000 gal. 0.244 20.325 0.148 12.328 0.080 6.681 0.284 23.681 94.92 5.08 Anker 2 M 3480 10/12/09 % lb/1000 gal. 0.475 39.568 0.211 17.576 0.154 12.789 0.405 33.715 86.69 13.31 Anker 3 M4364 8/9/1999 % lb/1000 gal. 0.153 12.745 0.089 7.414 0.057 4.748 0.190 15.827 96.82 3.18 Ankeridge Dairy SOLID MANURE ANALYSIS Testing performed by AgSource Labs, Umatilla, Oregon Source Solids Pile Sample I.D. Date Unit ORAWM 2014 lb/ton Total N NH4-N 9.40 NA P2O5 K2O Moisture Solids 5.60 11.6 NA NA Manure analyses should be performed by a laboratory that meets the requirements and performance standards of the Manure Testing Laboratory Certification Program (MTLCP), http://www.mda.state.mn.us/licensing/pestfert/manurelabs.htm. Manure should be analyzed annually for a minimum of three (3) consecutive years to develop a cumulative manure analysis history as a basis for nutrient allocation to the fields. Ankeridge Dairy AWMP Page 3-17 Section 3 TILIZA TION AREA Ankeridge Dairy AWMP Page 3?1 8 Section 3 UTILIZATION AREA HOW TO SAMPLE SOILS Current soil tests must be used in the development and editing of nutrient management plans. A current soil test is one that is no older than 5 years that is used to represent the nutrient status of the entire field. Soil analysis must be performed by laboratories successfully meeting the requirements and performance standards of the North American Proficiency Testing Program-Performance Assessment Program (NAPT-PAP). Results of these analysis will be used to determine application rates for manure, litter, and process wastewater. Guidance for soil sampling can be found in the Pacific Northwest (PNW) Extension publication 570-E, “Monitoring Soil Nutrients Using a Management Unit Approach”. Oregon State university Extension publication EC1478, “Soil Test interpretation Guide” provides guidance on how to determine soil nutrient concentrations and how to adjust soil pH to improve nutrient availability. Field Area. A composite soil sample should represent a uniform field area. Each area should have similar crop and fertility history. Soil characteristics (color, slope, texture, drainage) should be similar. Exclude small areas within a field that are obviously different. The field area represented by a single composite sample should represent no more than 40 irrigated acres or 100 dry land acres. Sampling Depth. Laboratory tests are calibrated to specific depths. It is vital to collect samples from appropriate depths. Sampling depth for most soils is the rooting depth in 6inch intervals. In Oregon, as a minimum, soil samples should be collected from the 0-12” depth and from the 12-24” depth. The 0-6” surface soil samples are normally used for conventional tests of organic matter, nitrogen, phosphorus, potassium, pH and salt levels. Additionally, subsurface samples from the 6-24” depth are needed to estimate nitrogen availability for crops. Ankeridge Dairy AWMP Page 3-19 Section 3 TILIZA TION AREA Ankeridge Dairy AWMP Page 3?20 Section 3 UTILIZATION AREA SOIL TESTS Ankeridge Dairy SOIL TEST RESULTS Testing performed by AgSource Labs, Umatilla, Oregon Source Lab ID Test Date Field Depth NO3N ppm NH4N ppm P ppm K ppm Ca meq Mg meq pH SMP 10/08/08 10/08/08 10/08/08 10/08/08 H2 H3 H4 H5 12” 12” 12” 12” 83 55 50 50 55 61 18 18 38 79 27 27 1240 1550 491 491 12.5 15.9 23.0 23.0 5.2 6.6 5.3 5.3 5.7 6.0 6.0 6.0 5.5 5.7 6.1 6.1 10/13/08 10/12/09 10/12/09 10/13/08 S1 S3 S4 S5 12” 12” 12” 12” 49 83 31 29 63 39 44 25 25 25 34 26 1135 751 813 752 7.7 25.3 23.0 22.0 3.4 6.6 6.5 6.2 5.9 6.3 6.5 6.3 5.4 6.5 6.6 6.1 04/28/14 04/28/14 04/28/14 T3-4-10-11 T5-9 T12-14 12” 12” 12” 9 7 6 24 51 34 40 33 12 983 1025 466 20.6 17.9 17.8 8.0 7.4 7.2 5.8 5.8 5.7 5.9 5.7 5.6 10/13/08 10/13/08 10/12/09 10/12/09 A1 A2 A3 A4 12” 12” 12” 12” 21 40 58 26 39 35 50 61 89 60 64 76 1850 1535 1324 1319 19.7 19.4 23.9 21.3 8.0 6.8 8.2 7.7 6.7 6.4 6.6 6.3 6.3 6.3 6.5 6.3 Anker 1 S7042 S7042 S7042 S7042 Anker 2 S7077 S1388 S1388 S7077 Anker 3 S1822 S1822 S1822 Aufdermauer S7077 S7077 S1388 S1388 Soil test analyses should be performed by laboratories that meet the requirements and performance standards of the North American Proficiency Testing Program (NAPT) Proficiency Assessment Program (PAP); http://www.naptprogram.org/pap/. Ankeridge Dairy AWMP Page 3-21 Section 3 TILIZA TION AREA Ankeridge Dairy AWMP Page 3?22 Section 3 UTILIZATION AREA HOW TO CALIBRATE APPLICATION EQUIPMENT Calibration of application equipment is a critical part of nutrient management. Calibration should be completed at least annually to insure manure and fertilizer will be uniformly applied. There are two basic approaches for calibrating a manure spreader – the load area and the weight area methods. The load area method is more accurate and can be used for both liquid and solid manure. The weight area method works only with solid or semi-solid manure. Irrigation System Calibration Place 3-5 buckets throughout the irrigation spray pattern and collect samples while operating the pump at a given rpm and pressure (for a traveling gun record the travel speed also). At the end of the planned sample period measure the amount of liquid collected in inches (average the samples). The following chart shows how many gallons per acre applied per inch of liquid applied: Inches Liquid Manure Applied via Irrigation: 0.20 0.30 0.40 0.50 0.75 1.00 1.25 1.50 Gallons per Acre: 5,431 8,146 10,862 13,577 20,366 27,154 33,943 40,731 Soft Hose Injection System with Irrigation Hose: Alternative 1. Use a flow meter mounted on the injector system and calculate the distance and width to determine amount applied over a measured area. Example the flow meter measures 1,000 gallons over a distance of 600 feet and 10 feet wide. Formula: Application Rate (7,260 gallons/acre) = (Gallons Applied (1,000 gal) X 43,560 sq. ft/acre) divided by (Distance traveled (600 ft) X Application width (10 ft)) Alternative 2. (Requires a 10-20 gallon graduated measuring container) Step 1) In the field, measure the flow out of one injector for 5 seconds into the graduated measuring container and record gallons, repeat three (3) times and average the results. Step 2) Multiply the average amount collected from one injector by the number of injectors (equals amount applied for the whole system for 5 seconds). Step 3) Multiply the results of Step 2 times 12 to get gallons per minute. Step 4) Place the injector in the soil at the planned depth and operating speed and record the distance traveled in 1 minute (average 3 different measurements). Step 5) Determine the effective application width (number of injectors X injector spacing in feet). Ankeridge Dairy AWMP Page 3-23 Section 3 UTILIZATION AREA Step 6) Multiply the effective width times the distance traveled in 1 minute (this gives the square feet covered in 1 minute). Step 7) Divide the result of Step 6 by 43,560 (this gives the acres covered in 1 minute). Step 8) Divide the results of Step 3 (gallons per minute) by the results of Step 7 (acres covered in 1 minute) - (this gives the gallons applied per acre. For example: Step 1) Collect an average of 6 gallons from one injector for 5 seconds. Step 2) Applicator has 8 injectors (8 injectors X 6 gallons per injector = 48 gallons for 5 seconds) Step 3) 48 gallons in 5 seconds X 12 = 576 gallons/minute applied Step 4) Average distance covered in 1 minute was 250 feet Step 5) Average width of the applicator is 12 feet. Step 6) 12 feet wide X 250 feet long = 3000 square feet Step 7) 3000 square feet divided by 43,560 square feet/acre = .0688 acres covered in 1 minute Step 8) 576 gallons/minute divided by .0688 acres/minute = 8,372 gallons/acre. Manure Spreader/Tanker Calibration There are several methods that can be used to calibrate the application rate of a manure spreader. The two best methods are the load-area method and the weight-area method. It is desirable to repeat the calibration procedure 2 to 3 times and average the results to establish a more accurate calibration. Before calibrating a manure spreader, the spreader settings such as splash plates should be adjusted so that the spread is uniform. Most spreaders tend to deposit more manure near the middle than at the edge of the spread pattern. Overlapping can make the overall application more uniform. Calibrating application rates when overlapping is involved requires measuring the width of two spreads and dividing by two to get the effective spread width. Calibration should take place annually or whenever manure is being applied from a different source or consistency. Ankeridge Dairy AWMP Page 3-24 Section 3 UTILIZATION AREA Load-Area Method: The load-area method is the most accurate and can be used for both liquid and soild manure. The load area method is a 3-step process: Step 1) Determine the amount of manure in the spreader. The most accurate way to determine the amount of manure in a spreader is weighting the spreader when it is empty and again when it is full. For a reliable estimate of spreader capacity, weigh several representative loads (at least five) to determine the average gross weight. Subtract the empty spreader weight. Then, calculate the average net loaded weight. Step 2) Determine the area of spread using the method at the right. Width measurements near the beginning and end of the spread pattern should be avoided because the spreader may not be operating at full capacity. Step 3) Calculate the application rate. The application rate is calculated using the formula for either liquid or solid manure. Formula for Solid Manure Equals Tons/Acre (Average Loaded Weight (lbs) x 21.81) divided by (Distance Traveled (ft) x Width of Spread (ft)) Formula for Liquid Manure Equals Gal/Acre (Tank Volume (gal) x 43,560) divided by (Distance Traveled (ft) x Width of Spread (ft)) Weight-Area Method: The weight-area method can only be used with solid or semi-solid manure. When a scale is not available, the application rate of a box spreader can be determined by collecting manure on a tarp or piece of heavy material. The weight area method is less accurate than the load area method. This method consists of eight steps: Step 1) Prepare/cut three 56-inch square tarps or pieces of heavy material (this size equals 1/2,000 of an acre). The pounds of manure collected on 56 inches square equals tons applied per acre. Step 2) Weigh one of the clean tarps and a large bucket on a platform scale. Record the weight. Step 3) Anchor the three tarps in the field ahead of the spreader near the beginning, middle, and end of the area that will be spread with one load. Step 4) Drive over the three tarps at a normal speed to collect a representative manure sample. Step 5) Fold and place the first tarp into the empty bucket without spilling the manure. Weigh the bucket, tarp, and manure. Subtract the weight of the clean tarp and bucket recorded in step 2. Ankeridge Dairy AWMP Page 3-25 Section 3 UTILIZATION AREA Step 6) Repeat the process for each of the two remaining tarps. Calculate the average weight (pounds) of the manure collected. This value equals tons of manure applied per acre. Factor for converting pounds to tons and square feet to acres (21.8 = 43,560 sq ft per acre divided by 2,000 lbs/ton). The factor for converting square feet to acres = 43,560 sq ft per acre. Step 7) Determining Area of Spread. The “area of spread” is the length and width of the ground covered with one load of manure. The area of spread is affected by speed and equipment settings. Spreaders discharge manure at varying rates depending on travel and PTO speed, gear box settings, and discharge openings. It is important to adjust the spreader so the pattern is as uniform as possible. Accurately measuring the length and width of this area is essential. To determine width, measure two adjacent spreads and divide by two to find the “effective” spread width. This accounts for overlap, which is often needed for a more uniform application. The length of spread is determined using the following three values: 1. Desired manure application rate based on soil and manure tests, 2. Width of the manure spread, and 3. Manure spreader holding capacity (weight and/or volume). From these values, calculate the distance or lengths of spread using these formulas: Formula: Solid Manure Equals Feet/Load (Average Load Weight (lbs) x 21.81) divided by (Spread Width (ft) x App. Rate (tons/ac)) Formula: Liquid Manure Equals Feet/Load (Tank Volume (gal) x 43,560) divided by (Spread Width (ft) x Desired App. Rate (gal/ac)) Step 8) Spread a load. If the distance traveled does not equal the calculated distance, adjust the speed or equipment settings. Ankeridge Dairy AWMP Page 3-26 Section 3 UTILIZATION AREA AMOUNT OF MANURE TO APPLY FOR CROPS GROWN The timing and frequency of applications of wastewater and solids containing manure for utilization by crops shown in the table below are based on information provided in Oregon State University Extension publications listed in Section 5. The formulas for determining the total nutrient application rate per unit yield for each crop shown in the table below are as follows: Total N to apply in pounds = N in pounds per yield unit from the table for the crop grown X percent (%) dry matter (DM) of harvested crop/100 X planned or measured yield per yield unit Total P2O5 to apply in pounds = P in pounds per yield unit from the table for the crop grown X 2.291 P2O5/P X percent (%) dry matter (DM) of harvested crop/100 X planned or measured yield per yield unit Total K2O to apply in pounds = K in pounds per yield unit from the table for the crop grown X 1.205 K2O/K X percent (%) dry matter (DM) of harvested crop/100 X planned or measured yield per yield unit The following table shows the crops that may be grown on this farm: Nutrient Removal (lb/yield unit) FRUIT OR VEGETABLES Beans, dry edible Blueberries Caneberries Corn, Sweet Mixed Vegetables & Fruit Onions Orchard, Fruit Pea, edible Potatoes Ankeridge Dairy AWMP Yield Unit cwt ton ton ton ton cwt ton ton ton Page 3-27 lb/Unit 100 2000 2000 2000 2000 100 2000 2000 2000 % DM 100 100 100 100 100 100 100 100 100 N 3.13 2.14 11.43 17.80 8.33 0.30 13.00 73.60 6.60 P 0.45 0.20 7.42 4.8 2.08 0.06 2.00 8.00 1.20 K 0.85 3.54 11.43 11.6 10.20 0..22 16.00 18.00 10.33 Section 3 UTILIZATION AREA Nutrient Removal (lb/yield unit) GRAIN, SEED OR OIL CROPS Barley Beets, sugar Canola Corn, grain shelled Crimson Clover seed Fescue Seed, Straw Removed Fescue, seed (Fine or Tall) Grass Seed Grass Seed, Straw Removed Oats, grain Orchardgrass seed Peppermint for Oil Peppermint for Oil, Leaves and Stems Removed Pumpkins Red Clover seed Ryegrass Seed Ryegrass, Perennial Seed Wheat, Soft White for grain Wheat, Soft White Straw Removed Wheat, Hard Red for grain Wheat, Soft White Straw Removed Ankeridge Dairy AWMP Yield Unit bushels ton ton bushels lb cwt lb cwt ton bushels lb ton ton ton lb cwt lb bushels ton bushels ton Page 3-28 lb/Unit 48 2000 2000 56 1 100 1 100 2000 32 1 2000 2000 2000 1 100 1 60 2000 60 2000 % DM 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 N 0.87 4.00 70.00 0.90 0.05 10.03 0.02 1.60 33.90 0.62 0.016 4.20 87.2 4.00 0.05 1.60 0.02 1.00 43.40 1.60 83.40 P 0.16 0.60 12.00 0.16 0.01 1.08 0.00 0.20 5.50 0.11 0.002 1.80 36.8 1.40 0.01 0.20 0.002 0.24 8.90 0.37 17.10 K 0.21 2.78 18.00 0.22 0.02 8.33 0.00 0.40 34.40 0.16 0.004 2.80 57.8 6.60 0.02 0.40 0.004 0.21 20.90 0.31 37.10 Section 3 UTILIZATION AREA Nutrient Removal (lb/yield unit) HAY AND PASTURE CROPS Alfalfa, Hay Alta Fescue Hay/Pasture Grass Legume Hay/Pasture Meadow Fescue Hay/Pasture Oats Hay/Pasture Orchardgrass Hay/Pasture Perennial Hay/Pasture (Low Intensity) Perennial Hay/Pasture (Low-Med Intensity) Perennial Hay/Pasture (Medium Intensity) Perennial Hay/Pasture (Med- High Intensity) Perennial Hay/Pasture (High Intensity) Ryegrass Hay Ryegrass, Perennial Pasture Tall Fescue Hay/Pasture Yield Unit ton ton ton ton ton ton ton ton ton ton ton ton ton ton lb/Unit 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 % DM 100 100 100 100 100 100 100 100 100 100 100 100 100 100 N 64.00 33.00 33.90 41.60 60.00 53.20 32.00 38.00 48.00 58.00 64.00 33.40 58.00 39.40 P 8.00 6.90 5.50 8.80 10.20 8.60 6.00 6.00 7.00 8.00 8.00 5.40 8.00 4.00 K 42.00 37.60 34.40 47.40 14.80 18.60 38.00 38.00 38.00 40.00 40.00 28.40 48.00 40.00 Nutrient Removal (lb/yield unit) SILAGE AND HAYLAGE CROPS Corn for Silage Crimson Clover forage Field Pea, Forage Oat haylage Oats & Peas/ Green Beans Red Clover forage Ryegrass Haylage Sorghum-Sudan Haylage Triticale Haylage Wheatgrass Hay/Pasture Ankeridge Dairy AWMP Yield Unit ton ton ton ton ton ton ton ton ton ton Page 3-29 lb/Unit 2000 2000 2000 2000 2000 2000 2000 2000 2000 2000 % DM 100 100 100 100 100 100 100 100 100 100 N 7.50 40.00 73.60 60.00 32.03 40.00 50.00 54.33 49.00 28.40 P 1.20 4.41 8.00 10.20 5.58 4.41 8.00 6.33 6.80 5.40 K 6.00 32.98 18.00 14.80 18.65 32.98 42.67 58.00 11.40 53.60 Section 3 UTILIZATION AREA Nutrient Removal (lb/yield unit) OTHER CROPS Hops, Cones Natural Area (Trees and Grass) Nursery Stock Ankeridge Dairy AWMP Yield Unit bale ton ton Page 3-30 lb/Unit 200 2000 2000 % DM 100 100 100 N 9.00 10.52 8.33 P 0.96 1.56 2.08 K 5.00 9.20 10.20 Section 3 UTILIZATION AREA SOLID MANURE APPLICATION CHART Test Date: Source: 2014 Solids Pile LIQUID MANURE APPLICATION CHART MANURE ANALYSIS MANURE ANALYSIS (As received lb/ton) P2O5 K2O Total N 9.40 5.60 11.60 (As received lb/1000 gal) P2O5 K2O Total N 24.21 8.07 24.41 Test Date: Source: 1999-2009 Tanks Manure Nutrient Content Manure Applied Thickness to apply (Tons/Ac) (inches/Ac) 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 6.00 6.50 7.00 7.50 8.00 8.50 9.00 9.50 10.00 10.50 0.013 0.020 0.026 0.033 0.039 0.046 0.052 0.059 0.066 0.072 0.079 0.085 0.092 0.098 0.105 0.111 0.118 0.124 0.131 0.138 Ankeridge Dairy AWMP Manure Nutrient Content Total N P2O5 K2O (lb/A) 9 14 19 24 28 33 38 42 47 52 56 61 66 71 75 80 85 89 94 99 (lb/A) 6 8 11 14 17 20 22 25 28 31 34 36 39 42 45 48 50 53 56 59 (lb/A) 12 17 23 29 35 41 46 52 58 64 70 75 81 87 93 99 104 110 116 122 Manure Applied Thickness to apply (Gallons/Ac) (inches/Ac) 2,715 5,431 8,146 10,862 13,577 16,292 19,008 21,723 24,439 27,154 29,869 32,585 35,300 38,016 40,731 43,446 46,162 48,877 51,593 54,308 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00 Page 3-31 Total N P2O5 K2O (lb/A) 66 131 197 263 329 394 460 526 592 657 723 789 855 920 986 1052 1118 1183 1249 1315 (lb/A) 22 44 66 88 110 131 153 175 197 219 241 263 285 307 329 351 373 394 416 438 (lb/A) 66 133 199 265 331 398 464 530 597 663 729 795 862 928 994 1061 1127 1193 1259 1326 Section 3 TILIZA TION AREA NUTRIENT APPLICATION CHART for WASTEWATER 14 3,500 12 Nutrients? to Apply 3:000 ?o?50 lb Ta) 10 2,500 +150 lb :5 ?o?200 lb .E 8 2,000 .5 6 1,500 5 0 5 '5 4 1,000 5 2 500 0 0 0.1 0.25 0.5 0.75 1 2 Application in Inches Nutrient Concentration in Ankeridge Dairy AWMP Page 3?32 Section 3 Nutrient Concentration in ton UTILIZATION AREA NUTRIENT APPLICATION CHART for SOLIDS 20 Nutrients to Apply +50 lb 16 1 +100 lb +150 lb -o?200 Application in Tons/Acre Ankeridge Dairy AWMP Page 3?33 Section 3 TILIZA TION AREA Ankeridge Dairy AWMP Page 3?34 Section 3 UTILIZATION AREA IRRIGATION WATER MANAGEMENT The application of Irrigation Water Management to the irrigated fields as shown on the Field Map will manage soil moisture to promote the desired crop response, optimize the available water supplies, minimize irrigation induced erosion, decrease non-point source pollution of surface and groundwater sources, manage salts in the crop root zone and manage the crop micro climate. Irrigation water is supplied by wells and surface water sources using pumps through an underground pvc pipelines to sprinkler irrigation systems. The average amount of irrigation water to be applied per application and total annual amount needed for irrigated crops with guidance on when and how much irrigation water to apply can be found starting on page 3-37. Permits: Under Oregon law all water is publicly owned and anyone planning to store or divert surface or groundwater for the purpose of irrigation must obtain a permit or water right from the Oregon Water Resources Department. These permits or water rights must be obtained prior to the use of the water. It is the responsibility of the Farmer to file for the necessary permits or water rights. Permits or water rights are not needed to apply wastewater as a nutrient source. Ankeridge Dairy AWMP Page 3-35 Section 3 UTILIZATION AREA Irrigation Water Flows, Volumes, and Relationships Equation 1- Equation 2- Q  453A D F H Q T  D  A where: Q = flow rate (acre-in/hr or cfs) T = time (hr) D = gross depth applied (in) A = area (acres) where: Q = flow rate (gpm) A = area (acres) D = gross application depth (in) F = irrigation period (days) H = hours of operation per day Water Volumes & Weights: 1 cubic foot = 7.48 gallons = 62.4 lb = 28.3 liters 1 acre-foot = 43,560 cubic feet (1 acre covered 1 ft deep) 12 acre-in = 1 acre-ft = 325,829 gal 1 million gallons = 3.07 acre-ft 1 acre-ft = 1,234 cubic meters 1 cu meter = 1,000 liters = 35.3 cu ft Water Flow Rates: 1 cubic foot per second (cfs) = 448.8 gallons per minute 1 cfs for 1 hour = 0.99 acre-inch 1 cfs for 24 hr = 1.98 acre-ft 1,000 gpm = 2.23 cfs 1,000 gpm for 24 hr = 4.42 ac-ft 1 gpm/acre = 0.053 ac-in/ac/day 1 cfs = 40 miner’s inches in OR, No CA 1 cfs = 50 miner’s inches in ID, WA 1 miner’s inch = 11.22 gpm in OR 1 miner’s inch = 9 gpm in ID, WA 1 cfs = 28.32 liters/sec 1 cubic meter/sec = 35.3 cfs 1 liter/sec = 15.85 gpm Pressure and Pressure Head: 1 psi = 2.31 ft of pressure head 1 atmosphere (sea level) = 14.7 psi = 33.9 ft of head Lengths and Areas: 1 mile = 5,280 ft = 1.61 km 1 meter = 3.28 ft = 39.37 inches 1 acre = 43,560 square ft 1 hectare = 2.47 acres Q x T = D x A where: Q = cfs, T = hr; D = inches depth; A = acres Gpm for 5 ft/s velocity in PVC pipe: 6” 8” 10” 12” 14” 480 800 1250 1750 2150 Pump Power Requirement Horsepower  Natural Resources Conservation Service Ankeridge Dairy AWMP Page 3-36 Pump Head in ft x gpm 39 .6 x % Pump Efficiency Section 3 UTILIZATION AREA SOILSBased on the Natural Resources Conservation Service National Engineering Handbook, Part 652, National Irrigation Guide, the irrigated soils on this farm have an average water holding capacity of 0.16 to 0.40 inches per inch of soil depth and a soil intake rate of 0.45 inches per hour. CROPSMATURE ROOT DEPTH (INCHES) 30 CROP Grass Hay/Pasture MAXIMUM ALLOWED DEPLETION 50% CRITICAL PERIOD July Above data are from EM8713, Western Oregon Irrigation Guides, June 1998, OSU: Corvallis, OR and NRCS Irrigation Guide (National Engineering Handbook, Part 652). IRRIGATION WATER SUPPLYDescription of Oregon Water Right: Description of Irrigation Water Supply (Well, Stream, Irrigation District, etc.): Supply Flowrate (gpm or cfs): Annual Volume Available (Acre-ft.): Water Delivery Schedule: Method(s) of Water Measurement: Certificates- 13781, 21536, 29911, 33106, 82238 Trask and Wilson Rivers 2,266 gpm or 5.05 cfs 1,010 Acre Feet On Demand NA IRRIGATION SYSTEM- System Traveling Big Gun Sprinkler System Capacity (gpm) Nozzle Size (in) Pressure (psi) Spacing (ft) Application Rate (in/hr) System Efficiency (%) 335 1.1 80 to 90 180 to 240 0.4 to 0.5 65 Ankeridge Dairy AWMP Page 3-37 Section 3 UTILIZATION AREA Irrigation Water Management Worksheet Crop Name: Hay/Pasture Land Managed Rooting Depth (inches): 30 Management Allowed Depletion, MAD: 50% Irrigated Acres: 404 Soil Name: Brenner, Nehalem, Nestucca, Quillamook, Templeton, Wolfer, Yachats Soil Depth (inches): 80 Available Water Capacity (in/in): 0.20 Soil Intake Rate (in/hr) : 0.40 IRRIGATION REQUIREMENT HOW MUCH water to apply? Month April May June July August Sept Soil or Root Depth * Available Water Capacity 6.0 6.0 6.0 6.0 6.0 6.0 Total Plant Available Water Capacity * MAD 3.0 3.0 3.0 3.0 3.0 3.0 Determined based on the type of Irrigation System 0.38 0.38 0.38 0.38 0.38 0.38 0.35 2.17 2.64 3.70 3.03 2.09 0.01 0.07 0.09 0.12 0.10 0.07 Net Irrigation Application / Daily Crop Water Use 30 31 30 25 31 30 Irrigation System Set Time (hours): 7.5 7.5 7.5 7.5 7.5 7.5 2.00 2.00 2.00 2.00 2.00 2.00 30 29 23 17 20 29 Water Required / Water Applied 70% 70% 70% 70% 70% 70% System Application Rate * System Set Time 2.85 2.85 2.85 2.85 2.85 2.85 Gross Irrigation Application * Irrigated Acres 1151 1151 1151 1151 1151 1151 16 16 16 16 16 16 1,087 1,144 1,438 1,950 1,597 1,138 Total Plant Available Water Capacity (in): Net Irrigation Application (in): Irrigation System Application Rate (in/hr): IRRIGATION TIMING WHEN to apply water? Net Irrigation Water Requirement (in): (From OSU Extension Miscellaneous Pub 8530, 1992) Average Daily Crop Water Use (in/day): Irrigation Frequency (days): Actual Net Irrigation Application (in): Gross Application * System Application Efficiency Actual Irrigation Frequency (days): Ac tual Net Irrigation Applic ation / Daily Crop Water Use IRRIGATION SYSTEM C APACITY System Application Efficiency (%): Gross Irrigation Application (in): Volume of Water per Irrigation (acre-in): Irrigation System Operation (hours/day): Required System Flow Rate (gpm): (Equation 2) Compare Required system flow rate with M easured flow noted on Irrigation Application Record Ankeridge Dairy AWMP Page 3-38 Section 4 SOIL AND RISK ASSESSMENT SOILMAPS .m ANKERIDGEJAIR Anker1Soils A . NORTH ii SALENorthwest Ag Consulting Ankeridge Dairy AWMP Section 4 SOIL AND RISK ASSESSMENT ANKERIDGE DAIRY nke 2 Soils .. . 9? . Lia. SCALE: 1 inch 400 feet GIS Mapping by Northwest Ag Consulng Ankeridge Dairy AWMP Section 4 SOIL AND RISK ASSESSMENT f: .- . 4- Eff" q. 1 -. ANKERIDGE DAIRY .1 :1 ker . {40SALE: 1 inch 500 feet GIS Mpping by Consultinh Ankeridge Dairy AWMP Section 4 SOIL AND RISK ASSESSMENT I KERIDGAIRY . Ir?" ufdemer Soils . .1 - ?i u? - Iw?w-v? .. . '9 . SCALE: 1 inch 500 feet GIS Mapping by Northwest Ag Consulting Ankeridge Dairy AWMP Section 4 SOIL AND RISK ASSESSMENT SOIL REPORTS Map Unit Description The map units delineated on the detailed soil maps in a soil survey represent the soils or miscellaneous areas in the survey area. The map unit descriptions in this report, along with the maps, can be used to determine the composition and properties of a unit. A map unit delineation on a soil map represents an area dominated by one or more major kinds of soil or miscellaneous areas. A map unit is identified and named according to the taxonomic classification of the dominant soils. Within a taxonomic class there are precisely defined limits for the properties of the soils. On the landscape, however, the soils are natural phenomena, and they have the characteristic variability of all natural phenomena. Thus, the range of some observed properties may extend beyond the limits defined for a taxonomic class. Areas of soils of a single taxonomic class rarely, if ever, can be mapped without including areas of other taxonomic classes. Consequently, every map unit is made up of the soils or miscellaneous areas for which it is named and some minor components that belong to taxonomic classes other than those of the major soils. Most minor soils have properties similar to those of the dominant soil or soils in the map unit, and thus they do not affect use and management. These are called noncontrasting, or similar, components. They may or may not be mentioned in a particular map unit description. Other minor components, however, have properties and behavioral characteristics divergent enough to affect use or to require different management. These are called contrasting, or dissimilar, components. They generally are in small areas and could not be mapped separately because of the scale used. Some small areas of strongly contrasting soils or miscellaneous areas are identified by a special symbol on the maps. If included in the database for a given area, the contrasting minor components are identified in the map unit descriptions along with some characteristics of each. A few areas of minor components may not have been observed, and consequently they are not mentioned in the descriptions, especially where the pattern was so complex that it was impractical to make enough observations to identify all the soils and miscellaneous areas on the landscape. The presence of minor components in a map unit in no way diminishes the usefulness or accuracy of the data. The objective of mapping is not to delineate pure taxonomic classes but rather to separate the landscape into landforms or landform segments that have similar use and management requirements. The delineation of such segments on the map provides sufficient information for the development of resource plans. If intensive use of small areas is planned, however, onsite investigation is needed to define and locate the soils and miscellaneous areas. An identifying symbol precedes the map unit name in the map unit descriptions. Each description includes general facts about the unit and gives important soil properties and qualities. Soils that have profiles that are almost alike make up a soil series. All the soils of a series have major horizons that are similar in composition, thickness, and arrangement. Soils of a given series can differ in texture of the surface layer, slope, stoniness, salinity, degree of erosion, and other characteristics that affect their use. On the basis of such differences, a soil series is divided into soil phases. Most of the areas shown on the detailed soil maps are phases of soil series. The name of a soil phase commonly indicates a feature that affects use or management. For example, Alpha silt loam, 0 to 2 percent slopes, is a phase of the Alpha series. Some map units are made up of two or more major soils or miscellaneous areas. These map units are complexes, associations, or undifferentiated groups. A complex consists of two or more soils or miscellaneous areas in such an intricate pattern or in such small areas that they cannot be shown separately on the maps. The pattern and proportion of the soils or miscellaneous areas are somewhat similar in all areas. Alpha-Beta complex, 0 to 6 percent slopes, is an example. An association is made up of two or more geographically associated soils or miscellaneous areas that are shown as one unit on the maps. Because of present or anticipated uses of the map units in the survey area, it was not considered practical or necessary to map the soils or miscellaneous areas separately. Ankeridge Dairy AWMP Page 4-5 Section 4 SOIL AND RISK ASSESSMENT The pattern and relative proportion of the soils or miscellaneous areas are somewhat similar. Alpha-Beta association, 0 to 2 percent slopes, is an example. An undifferentiated group is made up of two or more soils or miscellaneous areas that could be mapped individually but are mapped as one unit because similar interpretations can be made for use and management. The pattern and proportion of the soils or miscellaneous areas in a mapped area are not uniform. An area can be made up of only one of the major soils or miscellaneous areas, or it can be made up of all of them. Alpha and Beta soils, 0 to 2 percent slopes, is an example. Some surveys include miscellaneous areas. Such areas have little or no soil material and support little or no vegetation. Rock outcrop is an example. Additional information about the map units described in this report is available in other soil reports, which give properties of the soils and the limitations, capabilities, and potentials for many uses. Also, the narratives that accompany the soil reports define some of the properties included in the map unit descriptions. Report—Map Unit Description Tillamook County, Oregon 1A—Brenner silt loam, 0 to 1 percent slopes Map Unit Setting Elevation: 10 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 300 days Map Unit Composition Brenner and similar soils: 85 percent Description of Brenner Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 1 percent Depth to restrictive feature: More than 80 inches Drainage class: Poorly drained Capacity of the most limiting layer to transmit water (Ksat): Moderately low to moderately high (0.06 to 0.57 in/hr) Depth to water table: About 0 to 7 inches Frequency of flooding: Frequent Frequency of ponding: Frequent Available water capacity: High (about 11.6 inches) Ankeridge Dairy AWMP Page 4-6 Section 4 SOIL AND RISK ASSESSMENT Interpretive groups Farmland classification: Farmland of statewide importance Land capability (nonirrigated): 4w Hydrologic Soil Group: B/D Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA008OR) Typical profile 0 to 7 inches: Silt loam 7 to 12 inches: Silty clay loam 12 to 18 inches: Silty clay loam 18 to 26 inches: Silty clay loam 26 to 40 inches: Silty clay loam 40 to 55 inches: Silty clay 55 to 60 inches: Silty clay 37D—Templeton-Skipanon complex, 5 to 30 percent slopes Map Unit Setting Elevation: 50 to 1,500 feet Mean annual precipitation: 80 to 110 inches Mean annual air temperature: 46 to 52 degrees F Frost-free period: 120 to 210 days Map Unit Composition Templeton and similar soils: 45 percent Skipanon and similar soils: 30 percent Description of Templeton Setting Landform: Hillslopes, mountain slopes Landform position (two-dimensional): Footslope, summit Landform position (three-dimensional): Mountainbase, mountaintop, base slope, interfluve Down-slope shape: Convex, linear Across-slope shape: Convex, linear Parent material: Colluvium and residuum derived from sedimentary rock Properties and qualities Slope: 5 to 30 percent Depth to restrictive feature: 40 to 60 inches to paralithic bedrock Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: Very high (about 14.9 inches) Interpretive groups Farmland classification: Not prime farmland Land capability (nonirrigated): 6e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903) Ankeridge Dairy AWMP Page 4-7 Section 4 SOIL AND RISK ASSESSMENT Typical profile 0 to 2 inches: Slightly decomposed plant material 2 to 15 inches: Medial silt loam 15 to 28 inches: Silty clay loam 28 to 43 inches: Silty clay loam 43 to 54 inches: Silty clay loam 54 to 59 inches: Paragravelly silty clay loam 59 to 69 inches: Weathered bedrock Description of Skipanon Setting Landform: Hillslopes, mountain slopes Landform position (two-dimensional): Toeslope, summit Landform position (three-dimensional): Mountainbase, mountaintop, interfluve, base slope Down-slope shape: Linear, concave Across-slope shape: Convex, concave Parent material: Mass movement deposits derived from a mixture of igneous and sedimentary rock types overlying sedimentary rock Properties and qualities Slope: 5 to 30 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: High (about 10.4 inches) Interpretive groups Farmland classification: Not prime farmland Land capability (nonirrigated): 6e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903) Typical profile 0 to 2 inches: Slightly decomposed plant material 2 to 7 inches: Gravelly medial silt loam 7 to 15 inches: Gravelly silt loam 15 to 29 inches: Gravelly clay loam 29 to 44 inches: Gravelly clay loam 44 to 62 inches: Paragravelly clay loam 37E—Templeton-Skipanon complex, 30 to 60 percent slopes Map Unit Setting Elevation: 50 to 1,500 feet Mean annual precipitation: 80 to 110 inches Mean annual air temperature: 46 to 52 degrees F Frost-free period: 120 to 210 days Map Unit Composition Templeton and similar soils: 55 percent Skipanon and similar soils: 30 percent Ankeridge Dairy AWMP Page 4-8 Section 4 SOIL AND RISK ASSESSMENT Description of Templeton Setting Landform: Hillslopes, mountain slopes Landform position (two-dimensional): Backslope, footslope Landform position (three-dimensional): Upper third of mountainflank, head slope, side slope Down-slope shape: Linear, convex Across-slope shape: Linear, convex Parent material: Colluvium and residuum derived from sedimentary rock Properties and qualities Slope: 30 to 60 percent Depth to restrictive feature: 40 to 60 inches to paralithic bedrock Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: Very high (about 14.9 inches) Interpretive groups Farmland classification: Not prime farmland Land capability (nonirrigated): 6e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/oxalis, swordfern-moist (902) Typical profile 0 to 2 inches: Slightly decomposed plant material 2 to 15 inches: Medial silt loam 15 to 28 inches: Silty clay loam 28 to 43 inches: Silty clay loam 43 to 54 inches: Silty clay loam 54 to 59 inches: Paragravelly silty clay loam 59 to 69 inches: Weathered bedrock Description of Skipanon Setting Landform: Hillslopes, mountain slopes Landform position (two-dimensional): Footslope, backslope Landform position (three-dimensional): Lower third of mountainflank, center third of mountainflank, side slope, head slope Down-slope shape: Concave, linear Across-slope shape: Concave, linear Parent material: Mass movement deposits derived from a mixture of igneous and sedimentary rock types overlying sedimentary rock Properties and qualities Slope: 30 to 60 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: High (about 10.4 inches) Ankeridge Dairy AWMP Page 4-9 Section 4 SOIL AND RISK ASSESSMENT Interpretive groups Farmland classification: Not prime farmland Land capability (nonirrigated): 6e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/oxalis, swordfern-moist (902) Typical profile 0 to 2 inches: Slightly decomposed plant material 2 to 7 inches: Gravelly medial silt loam 7 to 15 inches: Gravelly silt loam 15 to 29 inches: Gravelly clay loam 29 to 44 inches: Gravelly clay loam 44 to 62 inches: Paragravelly clay loam 45B—Hebo silty clay loam, 0 to 5 percent slopes Map Unit Setting Elevation: 20 to 300 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 300 days Map Unit Composition Hebo and similar soils: 80 percent Minor components: 10 percent Description of Hebo Setting Landform: Drainageways on fluviomarine terraces, depressions on stream terraces Landform position (three-dimensional): Tread, riser Down-slope shape: Concave, linear Across-slope shape: Linear Parent material: Mixed alluvium and/or fluviomarine deposits derived from sedimentary rock Properties and qualities Slope: 0 to 5 percent Depth to restrictive feature: More than 80 inches Drainage class: Poorly drained Capacity of the most limiting layer to transmit water (Ksat): Very low to moderately low (0.00 to 0.06 in/hr) Depth to water table: About 0 to 4 inches Frequency of flooding: None Frequency of ponding: Frequent Available water capacity: High (about 10.6 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability (nonirrigated): 4w Hydrologic Soil Group: D Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA008OR) Ankeridge Dairy AWMP Page 4-10 Section 4 SOIL AND RISK ASSESSMENT Typical profile 0 to 4 inches: Silty clay loam 4 to 10 inches: Silty clay 10 to 18 inches: Clay 18 to 26 inches: Clay 26 to 35 inches: Silty clay 35 to 60 inches: Clay loam Minor Components Croquib Percent of map unit: 5 percent Landform: Stream terraces Other vegetative classification: Unnamed (G004AA008OR) Aquepts Percent of map unit: 5 percent Landform: Drainageways on fluviomarine terraces 56C—Wolfer medial silt loam, 3 to 15 percent slopes Map Unit Setting Elevation: 20 to 250 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Wolfer and similar soils: 85 percent Minor components: 5 percent Description of Wolfer Setting Landform: Stream terraces Landform position (three-dimensional): Riser Down-slope shape: Linear Across-slope shape: Linear Parent material: Silty alluvium overlying sandy and gravelly alluvium derived from igneous rock Properties and qualities Slope: 3 to 15 percent Depth to restrictive feature: 24 to 36 inches to strongly contrasting textural stratification Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: Very high (about 12.3 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 4e Land capability (nonirrigated): 3s Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/oxalis, swordfern-moist (902), Unnamed (G004AA004OR) Ankeridge Dairy AWMP Page 4-11 Section 4 SOIL AND RISK ASSESSMENT Typical profile 0 to 8 inches: Medial silt loam 8 to 14 inches: Medial silt loam 14 to 22 inches: Medial silt loam 22 to 35 inches: Medial silty clay loam 35 to 60 inches: Extremely gravelly loam Minor Components Hebo Percent of map unit: 5 percent Landform: Depressions on stream terraces Other vegetative classification: Unnamed (G004AA008OR) 73A—Nehalem silt loam, 0 to 3 percent slopes, frequently flooded Map Unit Setting Elevation: 10 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Nehalem, frequent flooding, and similar soils: 75 percent Minor components: 8 percent Description of Nehalem, Frequent Flooding Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.20 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: Frequent Frequency of ponding: None Available water capacity: High (about 11.6 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 3w Land capability (nonirrigated): 3w Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA004OR) Typical profile 0 to 9 inches: Silt loam 9 to 16 inches: Silt loam 16 to 48 inches: Silt loam 48 to 60 inches: Silt loam Ankeridge Dairy AWMP Page 4-12 Section 4 SOIL AND RISK ASSESSMENT Minor Components Brenner Percent of map unit: 8 percent Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Other vegetative classification: Unnamed (G004AA008OR) 74A—Nehalem silt loam, 0 to 3 percent slopes Map Unit Setting Elevation: 10 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Nehalem, occasional flooding, and similar soils: 80 percent Minor components: 3 percent Description of Nehalem, Occasional Flooding Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.20 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: Occasional Frequency of ponding: None Available water capacity: High (about 11.6 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 2w Land capability (nonirrigated): 2w Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA004OR) Typical profile 0 to 9 inches: Silt loam 9 to 16 inches: Silt loam 16 to 48 inches: Silt loam 48 to 60 inches: Silt loam Ankeridge Dairy AWMP Page 4-13 Section 4 SOIL AND RISK ASSESSMENT Minor Components Brenner Percent of map unit: 3 percent Landform: Depressions on flood plains Other vegetative classification: Unnamed (G004AA008OR) 76A—Nestucca silt loam, 0 to 3 percent slopes Map Unit Setting Elevation: 10 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Nestucca and similar soils: 90 percent Minor components: 5 percent Description of Nestucca Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Drainage class: Somewhat poorly drained Capacity of the most limiting layer to transmit water (Ksat): Moderately low to moderately high (0.06 to 0.57 in/hr) Depth to water table: About 14 to 41 inches Frequency of flooding: Frequent Frequency of ponding: None Available water capacity: High (about 11.6 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 3w Land capability (nonirrigated): 3w Hydrologic Soil Group: B/D Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA007OR) Typical profile 0 to 6 inches: Silt loam 6 to 14 inches: Silt loam 14 to 41 inches: Silty clay loam 41 to 60 inches: Silty clay Ankeridge Dairy AWMP Page 4-14 Section 4 SOIL AND RISK ASSESSMENT Minor Components Brenner Percent of map unit: 5 percent Landform: Depressions on flood plains Other vegetative classification: Unnamed (G004AA008OR) 77A—Nestucca-Brenner silt loams, 0 to 3 percent slopes Map Unit Setting Elevation: 10 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Nestucca and similar soils: 55 percent Brenner and similar soils: 40 percent Description of Nestucca Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Drainage class: Somewhat poorly drained Capacity of the most limiting layer to transmit water (Ksat): Moderately low to moderately high (0.06 to 0.57 in/hr) Depth to water table: About 14 to 41 inches Frequency of flooding: Frequent Frequency of ponding: None Available water capacity: High (about 11.6 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 3w Land capability (nonirrigated): 3w Hydrologic Soil Group: B/D Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA007OR) Typical profile 0 to 6 inches: Silt loam 6 to 14 inches: Silt loam 14 to 41 inches: Silty clay loam 41 to 60 inches: Silty clay Ankeridge Dairy AWMP Page 4-15 Section 4 SOIL AND RISK ASSESSMENT Description of Brenner Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Concave Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 1 percent Depth to restrictive feature: More than 80 inches Drainage class: Poorly drained Capacity of the most limiting layer to transmit water (Ksat): Moderately low to moderately high (0.06 to 0.57 in/hr) Depth to water table: About 0 to 7 inches Frequency of flooding: Frequent Frequency of ponding: Frequent Available water capacity: High (about 11.6 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability (nonirrigated): 4w Hydrologic Soil Group: B/D Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA008OR) Typical profile 0 to 7 inches: Silt loam 7 to 12 inches: Silty clay loam 12 to 18 inches: Silty clay loam 18 to 26 inches: Silty clay loam 26 to 40 inches: Silty clay loam 40 to 55 inches: Silty clay 55 to 60 inches: Silty clay 80B—Quillamook medial silt loam, 0 to 7 percent slopes Map Unit Setting Elevation: 20 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Quillamook and similar soils: 80 percent Minor components: 3 percent Description of Quillamook Setting Landform: Stream terraces Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Silty alluvium Ankeridge Dairy AWMP Page 4-16 Section 4 SOIL AND RISK ASSESSMENT Properties and qualities Slope: 0 to 7 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: Very high (about 19.2 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 3e Land capability (nonirrigated): 2e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA004OR) Typical profile 0 to 8 inches: Medial silt loam 8 to 17 inches: Medial silt loam 17 to 28 inches: Medial silt loam 28 to 47 inches: Medial silty clay loam 47 to 60 inches: Medial silty clay loam Minor Components Hebo Percent of map unit: 3 percent Landform: Depressions on stream terraces Other vegetative classification: Unnamed (G004AA008OR) 81B—Quillamook complex, 0 to 7 percent slopes Map Unit Setting Elevation: 20 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Quillamook, gravelly substratum, and similar soils: 60 percent Quillamook and similar soils: 25 percent Minor components: 2 percent Description of Quillamook, Gravelly Substratum Setting Landform: Stream terraces Landform position (three-dimensional): Tread Down-slope shape: Convex Across-slope shape: Linear Parent material: Silty alluvium overlying sandy and gravelly alluvium derived from igneous rock Ankeridge Dairy AWMP Page 4-17 Section 4 SOIL AND RISK ASSESSMENT Properties and qualities Slope: 0 to 7 percent Depth to restrictive feature: 40 to 60 inches to strongly contrasting textural stratification Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: Very high (about 15.8 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 3e Land capability (nonirrigated): 2e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA004OR) Typical profile 0 to 9 inches: Medial silt loam 9 to 19 inches: Medial silt loam 19 to 27 inches: Medial silt loam 27 to 39 inches: Medial silt loam 39 to 47 inches: Medial silt loam 47 to 60 inches: Extremely gravelly loamy coarse sand Description of Quillamook Setting Landform: Stream terraces Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Silty alluvium Properties and qualities Slope: 0 to 7 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: Very high (about 19.2 inches) Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 3e Land capability (nonirrigated): 2e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA004OR) Typical profile 0 to 8 inches: Medial silt loam 8 to 17 inches: Medial silt loam 17 to 28 inches: Medial silt loam 28 to 47 inches: Medial silty clay loam 47 to 60 inches: Medial silty clay loam Ankeridge Dairy AWMP Page 4-18 Section 4 SOIL AND RISK ASSESSMENT Minor Components Hebo Percent of map unit: 2 percent Landform: Depressions on stream terraces Other vegetative classification: Unnamed (G004AA008OR) 89A—Udifluvents-Riverwash-Water complex, 0 to 3 percent slopes Map Unit Setting Elevation: 20 to 100 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Udifluvents and similar soils: 40 percent Riverwash: 30 percent Water: 25 percent Minor components: 5 percent Description of Udifluvents Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Drainage class: Somewhat excessively drained Capacity of the most limiting layer to transmit water (Ksat): High to very high (1.98 to 19.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: Frequent Frequency of ponding: None Available water capacity: Moderate (about 6.4 inches) Interpretive groups Farmland classification: Not prime farmland Land capability (nonirrigated): 4w Hydrologic Soil Group: A Other vegetative classification: Sitka spruce/wet non-forest (991) Typical profile 0 to 7 inches: Fine sandy loam 7 to 38 inches: Sandy loam 38 to 60 inches: Loamy fine sand Ankeridge Dairy AWMP Page 4-19 Section 4 SOIL AND RISK ASSESSMENT Description of Riverwash Setting Landform: Flood plains Properties and qualities Slope: 0 to 3 percent Depth to water table: About 0 to 24 inches Frequency of flooding: Frequent Interpretive groups Farmland classification: Not prime farmland Land capability (nonirrigated): 8 Typical profile 0 to 60 inches: Stratified sand to gravel Minor Components Fluvaquents Percent of map unit: 5 percent Landform: Depressions on flood plains 90A—Yachats very fine sandy loam, 0 to 3 percent slopes Map Unit Setting Elevation: 10 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Yachats and similar soils: 85 percent Minor components: 5 percent Description of Yachats Setting Landform: Flood plains Landform position (three-dimensional): Tread Down-slope shape: Linear Across-slope shape: Linear Parent material: Alluvium derived from igneous and sedimentary rock Properties and qualities Slope: 0 to 3 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: Frequent Frequency of ponding: None Available water capacity: Moderate (about 8.4 inches) Ankeridge Dairy AWMP Page 4-20 Section 4 SOIL AND RISK ASSESSMENT Interpretive groups Farmland classification: Farmland of statewide importance Land capability classification (irrigated): 3w Land capability (nonirrigated): 3w Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA004OR) Typical profile 0 to 9 inches: Very fine sandy loam 9 to 19 inches: Loam 19 to 39 inches: Fine sandy loam 39 to 54 inches: Fine sandy loam 54 to 60 inches: Very fine sandy loam Minor Components Brenner Percent of map unit: 5 percent Landform: Depressions on flood plains Other vegetative classification: Unnamed (G004AA008OR) 95B—Urban land-Quillamook complex, 0 to 7 percent slopes Map Unit Setting Elevation: 20 to 200 feet Mean annual precipitation: 80 to 100 inches Mean annual air temperature: 49 to 52 degrees F Frost-free period: 160 to 260 days Map Unit Composition Urban land: 55 percent Quillamook and similar soils: 30 percent Minor components: 5 percent Description of Urban Land Interpretive groups Farmland classification: Not prime farmland Land capability (nonirrigated): 8 Description of Quillamook Setting Landform: Stream terraces Landform position (three-dimensional): Tread Down-slope shape: Convex Across-slope shape: Linear Parent material: Silty alluvium Properties and qualities Slope: 0 to 7 percent Depth to restrictive feature: More than 80 inches Drainage class: Well drained Capacity of the most limiting layer to transmit water (Ksat): Moderately high to high (0.57 to 1.98 in/hr) Depth to water table: More than 80 inches Frequency of flooding: None Frequency of ponding: None Available water capacity: Very high (about 19.2 inches) Ankeridge Dairy AWMP Page 4-21 Section 4 SOIL AND RISK ASSESSMENT Interpretive groups Farmland classification: Not prime farmland Land capability classification (irrigated): 3e Land capability (nonirrigated): 2e Hydrologic Soil Group: B Other vegetative classification: Sitka spruce/salmonberry-wet (903), Unnamed (G004AA004OR) Typical profile 0 to 8 inches: Medial silt loam 8 to 17 inches: Medial silt loam 17 to 28 inches: Medial silt loam 28 to 47 inches: Medial silty clay loam 47 to 60 inches: Medial silty clay loam Minor Components Hebo Percent of map unit: 5 percent Landform: Depressions on stream terraces Other vegetative classification: Unnamed (G004AA008OR) Data Source Information Soil Survey Area: Survey Area Data: Ankeridge Dairy AWMP Tillamook County, Oregon Version 5, Dec 4, 2013 Page 4-22 Section 4 SOIL AND RISK ASSESSMENT PREDICTED SOIL EROSION RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 58 Field name H1, H2 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 37D Templeton-Skipanon complex, 5 to 30 percent slopes\Templeton slightly decomposed plant material 45% 4.0 490 17 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 0 Soil conditioning index (SCI) 1 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 15 2000000 44 The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-23 Section 4 SOIL AND RISK ASSESSMENT RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 58 Field name H3 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 56C Wolfer medial silt loam, 3 to 15 percent slopes\Wolfer medial silt loam 85% 3.0 600 7.0 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 3.0 Soil conditioning index (SCI) 0.8 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 15 2000000 44 The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-24 Section 4 SOIL AND RISK ASSESSMENT RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 58 Field name H4 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 90A Yachats very fine sandy loam, 0 to 3 percent slopes\Yachats very fine sandy loam 85% 5.0 900 7.0 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 3.2 Soil conditioning index (SCI) 0.8 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 13 1800000 39 The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-25 Section 4 SOIL AND RISK ASSESSMENT RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 58, 294 Field name H5, S3 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 77A Nestucca-Brenner silt loams, 0 to 3 percent slopes\Nestucca silt loam 55% 5.0 900 7.0 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 3.3 Soil conditioning index (SCI) 0.8 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 15 2000000 44 The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-26 Section 4 SOIL AND RISK ASSESSMENT RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 294 Field name S1, S2 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 81B Quillamook complex, 0 to 7 percent slopes\Quillamook medial silt loam 60% 4.0 800 7.0 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 4.1 Soil conditioning index (SCI) 0.7 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 15 2000000 44 The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-27 Section 4 SOIL AND RISK ASSESSMENT RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 294, 8, 346 Field name S4, S5, A1-A4 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 74A Nehalem silt loam, 0 to 3 percent slopes\Nehalem silt loam 80% 5.0 900 3.0 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 1.5 Soil conditioning index (SCI) 0.9 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 15 2000000 44 The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-28 Section 4 SOIL AND RISK ASSESSMENT RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 321, 593 Field name T1-T3, T5-T9, T11-T14 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 1A Brenner silt loam, 0 to 1 percent slopes\Brenner silt loam 85% 5.0 900 3.0 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 1.6 Soil conditioning index (SCI) 0.9 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 15 2000000 44 The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-29 Section 4 SOIL AND RISK ASSESSMENT RUSLE2 Worksheet Erosion Calculation Record Info: Owner name Ankeridge Dairy Tract # 321, 593 Field name T4, T10 Location Soil T value, t/ac/yr Slope length (horiz), ft Avg. slope steepness, % Oregon\Tillamook County\OR_Tillamook_R80-90 76A Nestucca silt loam, 0 to 3 percent slopes\Nestucca silt loam 90% 5.0 900 3.0 Alternatives: Description Management Contouring Strips / barriers Erosion on Pasture a.Single Year/Single Crop Templates\Pasture, yr1 fall plant; manure appl., Z71 a. rows up-anddown hill (none) Diversion/terrace, sediment basin Cons. plan. soil loss (none) 1.2 Soil conditioning index (SCI) 0.9 STIR value Wind & irrigationinduced erosion for SCI, t/ac/yr Equiv. diesel use, gal/ac Energy use, BTU/ac Fuel cost, US$/ac 94.9 0 15 2000000 44 -The SCI is the Soil Conditioning Index rating. If the calculated index is a negative value, soil organic matter levels are predicted to decline under that production system. If the index is a positive value, soil organic matter levels are predicted to increase under that system. The STIR value is the Soil Tillage Intensity Rating. It utilizes the speed, depth, surface disturbance percent and tillage type parameters to calculate a tillage intensity rating for the system used in growing a crop or a rotation. STIR ratings tend to show the differences in the degree of soil disturbance between systems. The kind, severity and number of ground disturbing passes are evaluated for the entire cropping rotation as shown in the management description. Ankeridge Dairy AWMP Page 4-30 Section 4 SOIL AND RISK ASSESSMENT OREGON PHOSPHORUS INDEX (WEST) Ankeridge Dairy AWMP Page 4-31 SOIL AND RISK ASSESSMENT FIELD SUMMARY WESTERN OREGON INDEX Enter data in gray cells and select best choice from drop down menus. Cells with blue font are completed automatically. Field Acres Soil Soil test date Bray 1 (ppm) Acetate (ppm) pH SMP TRANSPORT FACTORS Sheet rill erosion (tonsfac-yr) Irrigation erosion (tonsiac?yr) Runoff Class Flooding Frequency Distance to stream (ft) Buffers Drainage SOURCE FACTORS Commercial P205 rate (Ibslac) Commercial P205 method Commercial P205 timing Organic P205 rate (Ibsfac) Organic P205 method Organic P205 timing SCORE RUNOFF RISK RATING COMMENTS Grower: Application Plan by: Section 4 Ankeridge Dairy Tom Thomson. NW Ae Consulting Date: Mav 14. 2014 27.2 38.2 37.6 10.7 22.9 35.6 4.0 0.9 74A, Nehalem 74A, Nehalem 74A, Nehalem 74A, Nehalem 74A, Nehalem 7414, Nehalem 1A, Brenner 1A, Brenner October 12, 2009 October 13, 2008 October 13, 2008 October 13, 2008 October 12. 2009 October 12. 2009 April 28, 2014 April 28, 2014 813 752 1.850 1.535 1.324 1,319 983 983 6irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff low low low low low low medium medium occasional occasional occasional occasional occasional occasional frequent frequent <1001t >500ft (10011 <100ft <100ft <11}th <100ft <100ft I I 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spectiles no tiles no tiles I no tiles I no tiles no tiles no tiles no tiles None applied None applied None applied None applied None applied None applied None applied None applied None applied None applied None applied None applied None applied None applied None applied None applied 207 207 207 207 207 207 207 207 Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days All months possible All months possible All months possible All months possible All months possible All months possible All months possible All months possible 16.9 16.9 21.8 18.9 19.3 20.5 19.4 194 Medium Medium Medium Medium Medium Medium Medium Medium Ankeridge Dairy AWMP Page 4?32 FIELD SUMMARY WESTERN OREGON INDEX Enter data in gray cells and select best choice from drop down menus. Cells with blue font are completed automatically. Soil test date Bray 1 (ppm) Acetate (ppm) TRANSPORT FACTORS Sheet rill erosion (tons/ac-yr} Irrigation erosion (tonslac?yr) Runoff Class Flooding Frequency Distance to stream Buffers Drainage SOURCE FACTORS Commercial P205 rate (lbs/ac) Commercial P205 method Commercial P205 timing Organic P205 rate (lbslac) Organic P205 method Organic P205 timing SCORE RUNOFF RISK RATING COMMENTS SOIL AND RISK ASSESSMENT Grower: Application Plan by: Section 4 Ankeridge Dairy Tom Thom son. NW Ag Consulting Date: Mav l4. 200.7 7.8 8.3 7.4 10.4 6.4 11.4 4.4 1A, Brenner 1A, Brenner 76A, Nestucca 1A, Brenner 1A, Brenner 1A, Brenner 1A, Brenner 1A, Brenner April 28, 2014 April 28. 2014 April 28. 2014 April 28, 2014 April 28, 2014 April 28, 2014 April 23, 2014 April 28, 2014 983 983 983 1.025 1,025 1,025 1,025 1.025 5irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff medium medium medium medium medium medium medium medium frequent frequent frequent frequent frequent frequent frequent frequent <100ft <100ft 100?19911 <100ft <100ft 200-2990 200?299ft <100ft I 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. I I I I no tiles no tiles VI no tiles VI no tiles no tiles VI no tiles :l no tiles VA no tiles None applied None applied None applied None applied None applied None applied None applied None applied . .I None applied I None applied None applied None applied I None applied None applied None applied I None applied I 207 207 207 207 207 207 207 207 Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days . .I All months possible I All months possible All months possible All months possible I All months possible All months possible All months possible I All months possible I 19.4 19.4 19.4 19.4 19.4 19.4 19.4 19.4 Medium Medium Medium Medium Medium Medium Medium Medium Ankeridge Dairy AWMP Page 4?33 FIELD SUMMARY 8: WESTERN OREGON INDEX Enter data in gray cells and select best choice from drop down menus. Cells with blue font are completed automatically. SOIL AND RISK ASSESSMENT rower: Application Plan by: Date: Section 4 Ankeridge Dairy Tom Thomson, NW Ag Consulting Maw 14, 20 I4 Field T10 T11 T12 T13 T14 Acres 10.1 6.1 9.3 10.3 11.7 TEA, Nestucca 1A, Brenner 1A, Brenner 1A, Brenner 1A, Brenner TILLAMOOK COUNTY TILLAMOOK COUNTY TILLAMOOK COUNTY Soil test date April 28. 2014 April 28,2014 April 28, 2014 April 28, 2014 April 28. 2014 Bray 1 (ppm) 40 4o 12 12 12 Acetate (ppm5.3 5.8 5.7 5.7 5.7 SMP 5.9 5.9 5.6 5.6 5.6 TRANSPORT FACTORS Sheet rill erosion (tonslac-yrlci '14 Irrigation erosion ?onslach no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff no irrig. runoff not irrigated I not irrigated I not irrigated Runoff Class medium medium medium medium medium none none none Flooding Frequency frequent frequent frequent frequent frequent none none none Distance to stream 300?5000 noon <1001?t <100ft <100ft >500ft >500ft >500f?t I I I _l Buffers 30 ft or NRCS spec. :l 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS spec. 30 ft or NRCS specDrainage no tiles no tiles no tiles no tiles no tiles no tiles no tiles no tiles SOURCE FACTORS Commercial P205 rate (lbs/acCommercial P205 method None applied None applied None applied None applied None applied None applied None applied None applied I I Commercial P205 timing None applied None applied None applied None applied None applied None applied I None applied I None applied Organic P205 rate (lbs/acOrganic P205 method Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days Not incorp. in 5 days None applied None applied None applied I I Organic P205 timing All months possible All months possible All months possible All months possible All months possible None applied I None applied I None applied I SCORE 19.4 19.4 19.4 19.4 19.4 0.0 0.0 0.0 RUNOFF RISK RATING Medium Medium Medium Medium Medium Low Low Low COMMENTS Ankeridge Dairy AWMP Page 4?34 Section 4 SOIL AND RISK ASSESSMENT Oregon Phosphorus Index Risk Interpretation P Index rating West PI Score<13 East PI Score<30 West PI Score 13-25 East PI Score 30-100 West PI Score >25-50 East PI Score >100-400 West PI Score >50 East PI Score >400 Ankeridge Dairy AWMP Interpretation Recommended Nutrient Limitation Low potential for P movement from this site given current management practices and site characteristics. There is a low probability of an adverse impact to surface waters from P losses on this site. Soil test P and P losses are likely to increase in future due to Nbased nutrient management from animal manure. Nitrogen Medium potential for P movement from this site given current management practices and site characteristics. Practices should be introduced to reduce P losses by surface runoff, subsurface flow, and erosion. Soil test P and P losses are likely to increase in future due to Nbased nutrient management from animal manure. Nitrogen High potential for P movement from this site given current management practices and site characteristics. All practicable management practices to reduce P losses through surface runoff, subsurface flow, or erosion should be implemented. Phosphorus Very high potential for P movement from this site given current management practices and site characteristics. Active remediation techniques should be implemented in an effort to reduce the P loss potential from this site. No manure Page 4-35 Section 4 SOIL AND RISK ASSESSMENT Ankeridge Dairy AWMP Page 4?36 Section 5 REFERENCES OREGON DEPARTMENT OF AGRICULTURE MODIFICATION OF ANIMAL NUMBERS National Pollutant Discharge Elimination System (NPDES PERMIT) Statutory Authority Oregon Revised Statutes (ORS) 468B.050 When permit required ORS 468B.210 Maximum numbers of animals based on ability to contain, treat, hold and dispose of wastes as necessary to comply with all conditions of the permit. A. General Information Master Address #AG-P1000085CAFG #AG-P1000087CAFG #AG-P1000106CAFG #AG-P1000086CAFG EPA#ORG010662 EPA#ORG010664 EPA#ORG010680 EPA#ORG010663 Name or Business Name – Ankeridge Dairy Facility Location Address – 8680 Sollie Smith Road City – Tillamook Zip Code - 97141 County - Tillamook B. Livestock Type: Circle the item that best represents your operation. 1. Beef Feedlot (Fattening) 2. Beef Cattle (Cow/calf) 5. Dairy Farm, Heifer Replacement Farm 7. Mink/Rabbits 3. Hogs 6. Poultry/Broiler 8. Horses and Other Equine 4. Sheep and Goats 7. Poultry/Eggs 9. Other C. Current Permitted Animal Numbers: In the space below please describe your number of animals by herd composition or class. Ankeridge Dairy is a Medium and Small Concentrated CAFO currently permitted for 1,370 dairy animals- 1,020 Milking and Dry Cows and 350 Heifers and Calves. D. Current Permitted CAFO Designation: Circle one. See reverse side for table. Large Concentrated Medium Concentrated Medium Confined Small Confined Small Concentrated E. Proposed change in permitted animal numbers: In the space below please describe your proposed animal numbers by herd composition Large Federal CAFOor class. Medium Federal CAFO State CAFO Ankeridge Dairy is requesting to combine all current permits into one and be permitted for 1,750 dairy animals- 1,200 Milking and Dry Cows and 550 Heifers and Calves. F. New CAFO Designation based on increase / decrease in animal numbers. Circle one. See reverse side for table. Large Concentrated Medium Concentrated Medium Confined Small Confined Small Concentrated G. Certification: I understand that an approved animal waste management plan is required prior to permit increase. I agree to prepare and implement an animal waste management plan in accordance with the requirements and timelines specified in the permit. Signature (operator or owner) Date Print Name Signature (operator or owner Date Print Name Ankeridge Dairy AWMP Page 5-1 Section 5 REFERENCES Definition of Legally Authorized Representative: See 40 CFR 122.22 for more detail. Please also provide the information requested in brackets [ ]  Corporation — President, secretary, treasurer, vice-president, or any person who performs principal business functions; or a manager of one or more facilities      employing more than 250 persons or having gross annual sales or expenditures exceeding $25 million that is authorized in accordance to corporate procedure to sign such documents Partnership — General partner [list of general partners, their addresses, and telephone numbers] Sole Proprietorship — Owner(s) [each owner must sign the application] City, County, State, Federal, or other Public Facility — Principal executive officer or ranking elected official Limited Liability Company — Member [articles of organization] Trusts — Acting trustee [list of trustees, their addresses, and telephone numbers] SEND THIS FORM TO: A. Oregon Department of Agriculture Natural Resources Division 635 Capitol Street NE Salem, Oregon 97301-2532 ANIMAL MODIFICATION REQUEST INSTRUCTIONS GENERAL INFORMATION: 1. Enter the legal name. 2. Enter the common name of the facility or operation, if different than the legal name. 3. Enter the facility's physical address (physical location), including city, state, zip code and telephone number. B. C. D. E. F. G. CIRCLE THE APPROPRIATE LIVESTOCK TYPE OF YOUR OPERATION. Self-explanatory Self-explanatory Describe your proposed animal increase by herd composition or class Self-explanatory Signature CAFO Designation by Size Threshold (used for items D and F) Confined Concentrated Confines more than one animal for more than Stabled or confined and fed or maintained for total of 45 days or more in any 124 months on prepared surface month period Crops, vegetation, forage growth, or post-harvest residues not sustained in normal growing season in lot or facility Small Confined Medium Confined Small Concentrated Medium Concentrated Large Concentrated Waste water Waste water control Significant contributor of Discharging pollutants [40 CFR control facility facility or pollutants to waters to waters of the U.S. §122.23(b)(4)] or disposal disposal system of the U.S. [40 CFR §122.23(b)(6)] system for wet for wet or dry wastes Designated by director wastes [40CFR §122.23(b)(9)] Animal sector Small Confined Medium Confined Small Concentrated Medium Concentrated Large Concentrated Mature dairy cows1 <200 200-699 <200 200-699 ≥700 Veal calves <300 300-999 <300 300-999 ≥1,000 Cattle2 <300 300-999 <300 300-999 ≥1,000 Swine> 55 lbs <750 750-2,499 <750 750-2,499 ≥2,500 Swine < 55 lbs <3,000 3,000-9,999 <3,000 3,000-9,999 ≥10,000 Horses <150 150-499 <150 150-499 ≥500 Sheep or lambs <3,000 3,000-9,999 <3,000 3,000-9,999 ≥10,000 Turkeys Chickens, including laying hens or broilers w/wet waste system manure handling system) <16,500 <9,000 16,500-54,999 9,000-29,999 <16,500 <9,000 16,500-54,999 9,000-29,999 ≥55,000 ≥30,000 Laying hens w/dry waste system NA 25,000-81,999 <25,000 25,000-81,999 ≥82,000 Broiler chickens w/dry waste system NA 37,500-124,999 <37,500 37,500-124,999 ≥125,000 Ducks w/other than wet waste system <10,000 10,000-29,999 <10,000 10,000-29,999 ≥30,000 Ducks w/wet waste system <1,500 1,500-4,999 <1,500 1,500-4,999 ≥5,000 Designated by director. NA NA Other animal type As determined by ODA.3 1 Whether milked or dry. 2 Other than mature dairy cows or veal calves; cattle includes but is not limited to heifers, steers, bulls and cow/calf pairs. 3 To determine the number of animals that require permit coverage, ODA will compare the operation to the most similar animal type in the table. Ankeridge Dairy AWMP Page 5-2 Overview of CA F0 General Permit Summary Section 5 REFERENCES Notice of Registration and Oregon Con?ned Animal Feeding Operation (CAFO) National Pollutant Discharge Elimination System (NPDES) General Permit Summary The Oregon CAFO General Permit No. 01?2009 (permit) was issued by the Oregon Department of 7 Agriculture (ODA) and Department of Environmental Quality (BBQ) and became effective on June 29, 2009. The permit expires on May 31, 201-1. A copy of the permit is enclosed. This Notice of Registration 5 describes your speci?c permit registration information and an overview of permit requirements. Your Medium CAFO was registered to CAFO Permit No. 1-2009 on December 5, 2013 based on i information provided by yo_u__a_s follows: I. ?ope-raw- Legaluwnen?di?erm . - .. . .. .. .. Mailing Address Facility Address . I. . a car Fax .. Maximum Number ofAnimals . . . . . . . Ahh??i 2- is: 'ijiiestio'nsi' Additional [af?rmation .. . I Ceneral Permit I I .Canilitioni. .. . . Prohibited Discharges See permit section 98: lOt'or 1Fullteiit. "wiles artisans" except: When rainfall events cause an over?ow of process waste water from a facility designed, constructed, Allowed Permit sections - pp. 9 85 10. Ankeridge Dairy AWMP 8680 Sollie Smith Rd. OR 97141 8680 Sollie Smith Rd. Tillaniook, OR 97141 . ., . (559) 303?0313 93.157276ankeridge@hotmail.com I The maximum number of animals that may be held at this Medium con?ned CAFE) is 795 based on a herd composition of 600 milking/dry cows and 195 heifers/calves. You may not exceed this number by more than 10% or 25 animals, whichever is greater, . without ?rst providing ODA with a revised Animal Waste Management Plan (AWMPBased on the type and size of your operation, ODA has determined that you operate a Medium Con?ned CAFO. Note: Large Concentrated CA F03 have additional .. requirements .318?? 3.88 aensraiperait'assassins;"as will a" aria c'di?i?i?iilanc? ?a assign this registration under minimal retinit- ?l'f you Questions, call your live-stock water quality specialist for 1 at? or the Salem of?ce at (503} 986-4699. Additional CAFO program information is available on the internet at :r'foregon . gova RD/cafo" fron t.shtmi operator-must compliance With terms and conditions ofthe only 'Tii'e singing plantar-assist as sari-area; Contaminated run off from con?nement or waste accumulation areas; Over?ow or discharges from waste storage facilities; - Discharges due to improper land application activities from surface drainages or ?eld tile outlets; Discharges due to equipment failure; and Leakage or seepage from facilities in the production area in excess of approved designs. marginnagbangsapnoea warrants sass of areas is operated, and maintained to contain all process-generated waste waters plus the runoff and direct precipitation from a 25-year, 24-hour rainfall event provided these discharges do not cause or contribute i to a violation of state water quality standards; or In the event of an upset or bypass condition. These conditions nre?trther de?ned in the permit. All authorized discharges from the production area must be properly land applied or otherwise handled in a 3 way that minimizes impacts on surface water and groundwater sources. I LandApplz?carion Area: Storm water runoff from the land application area is not considered a prohibited discharge and is allowed if the land is being managed in compliance with the AWMP approved by ODA. Page 5?3 Animal Waste Management Plan (AWMP) Requirement Permit section 83, pp. 12-15. Storage Requirement Permit section 52.13, p. 10. Monitoring, Reeordkeeping Reporting Permit section S4, pp. 16-19. Land Application Rates Timing Permit sections SZ.C. pp. 9 10; 83C, p. 12 13. Duty to Report Noncompliance Permit section p. 18. Annual Report Permit section S4.D.2, p. 18. Construction of Waste Storage and Waste Water Control Facilities Permit section SZ.E.2, p. 10. Public Noticing Participation Permit section pp. 7 8. Ray Jaindl, Director Section 5 REFERENCES The permit requires that each permitted operation have a current AWMP approved by ODA. An AWMP describes how a CAFO is managed with respect to containment, treatment, storage, and utilization of manure, litter, and process wastewatcr in order to remain in compliance with permit conditions and water quality laws. The AWMP must accurately represent current land base, manure storage, herd/?ock size, and current management practices used at the livestock operation. 'lhe AWMP must re?ect production practices and be implemented accordingly. You must provide adequate storage capacity for solid and liquid wastes at all times so that land application occurs only during periods when soil and weather conditions are suitable. Monitoring, recordkeeping and reporting ofwaste applications, and inspection requirements must occur as described in an AWMP approved by ODA and requirements in section S4. of the permit. Note: Large concentrated CAFOS have additional requirements. You must apply manure, litter and process wastes to lands at agronomic rates in accordance with proper agricultural practices and as speci?ed in a waste management plan that has been approved by ODA. Waste applications must not exceed the capacity of the soil and crops to assimilate nutrients and minimize water pollution, must be quanti?able, and based on the NRCS Phosphorous Index, Agronomy Technical Note #26, revised June 2008, and must account for all other nitrogen and phosphorus. Prohibitions: lf discharge to surface water or groundwater will result, application to ?ooded and saturated land is prohibited. Proposed waste and waste water application to frozen soil must be included in an AWMP. Land application of wastes or waste water during rainfall events that are expected to result in saturated soils or surface runoff is prohibited. If at any time you are unable to comply with any permit conditions, you have a duty to contact ODA immediately so the situation can be assessed and remedial actions taken if necessary. Note: If you have a discharge to surface water or groundwater that is not allowed by the permit, you must noti?l ODA within 24 hours of the discharge. Please call your area livestock water quality specialist (see page I for phone number) at or Program support in Salem at (503) 986-4699. You must submit an annual report to ODA by March 15th of each year. SZ.E. 2 of the permit states that you ?must site, design, construct, operate, and maintain all waste storage facilities consistent with the AWMP. New and modi?ed construction ofwaste facilities must be approved in advance and prior to construction by ODA in conformance with ORS 4688.055 and OARs 340-051 and 603-074.? Experimental or unproven technologies must receive prior approval from ODA. For all other modi?cations or new construction, no approval will be required. Certi?cation forms are available from ODA. Prior to approving new permit coverage, renewing permit coverage, or approving proposed substantial changes to an AWMP, ODA will provide public notice and participation. Natural Resources and Pesticides Ankeridge Dairy AWMP Page 5-4 .. .. .. CAFO General 5_ Permit Summary Name Businessman .. .. Mailing Address .. . .. . .. 3 f; Lil; Section 5 REFERENCES Notice of Registration and Oregon Con?ned Animal Feeding Operation (CAFO) National Pollutant Discharge Elimination System (NPDES) General Permit Summary I The-Oregon GeneralrljermituNo. was issued the Oregon Department of Agriculture (ODA) and Department of Environmental Quality (DEQ) and became effective on June 29, 2009. The permit expires on May 2014. A copy of the permit is enclosed. This Notice of Registration describes your speci?c permit registration information and an overview of permit requirements. Your Medium CAFO was registered to CAFO Permit No. 1?2009 on December 53 2013 based on by. yes. as. In?ows: assessAnkeridge Dairy/Qtssafid:- . . 8680 Sollie Smith Rd1450 Olson Rd. Tiilamook, OR 97141 .. .. .. "may"assassins? silliness Additional - angst" sass" 1..Conditions--. . Prohibited Discharges 3 See permit section 1 32, p. 9 10 for full text. Allowed Permit sections 82.133 p. 9; 82C, pp. 9 10. Ankeridge Dairy AWMP aximu bermof I . The maximum number of animals that may be held at this Medium Concentrated CAFO is 340 based on a herd composition of 300 milking/dry cows and 40 heifers! calves. You may not exceed this number by more than 10% or 25 animals, whichever is greater, without first providing ODA with a revised Animal Waste Management Plan .. . . .. . - Based on the type and size of year operation, ODA has determined that you operate a Medium concentrated CAFO. Note: Large Concentrated CAFOs have additional Fiesta . .V a Each ?scal year. you will be assessed an annual compliance fee of $200.00 to maintain this registration suds?tress seamstress;gainer??again registrants?qtsi?stpa?asa?ra 1 at (503) 842?6278 or the Salem office at (503) 986-4699. Additional CAFO program information is available on the internet at mom/NR Death ?front-shin? assassin? thspermit) at ail times. The following-types of discharges are prohibited:' - Contaminated runoff from confinement or waste accumulation areas; Over?ow or discharges from waste storage facilities; Discharges due to improper land application activities from surface drainages or ?eld tile outlets; Discharges due to equipment failure; and ass assess. Dissected.senses.-. . .. .. ?assessing; except: When rainfall events cause an over?ow of process waste water from a facility designed, constructed, operated, and maintained to contain all process-generated waste waters plus the runoff and direct precipitation from a 25-year, 24?hour rainfall event provided these discharges do not cause or contribute to a violation of state water quality standards; or In the event of an upset or bypass condition. These conditions are further de?ned in the permit. All authorized discharges from the production area mu st be property land applied or otherwise handled in a way that minimizes impacts on surface water and groundwater sources. Land Application Area: Storm water runoff ?'om the land application area is not considered a prohibited . . Page 5?5 Animal Waste Management Plan (AWMP) Requirement Permit section 83, pp. 12-1 5. Storage Requirement Permit section SZ.E, p. 10. Monitoring, Recordkeeping Reporting Permit section S4, pp. 16-19. Land Application Rates Timing Permit sections 82C, pp. 9 10; 81C, p. 12 l3. Duty to Report Noncompliance Permit section 84D. 1, p. 18. Annual Report Permit section S4.D.2, p. 18. Construction of Waste Storage and Waste Water Control Facilities Permit section 82.132, p. 10. Public Noticing Participation Permit section SLH, pp. 7 8. Section 5 REFERENCES The permit requires that each permitted operation have a current AWMP approved by ODA. An AWMP describes how a CA F0 is managed with respect to containment, treatment, storage, and utilization of manure. litter, and process wastewater in order to remain in compliance with permit conditions and water quality laws. The AWMP must accurately represent current land base, manure storage, herd/?ock size, and current management practices used at the livestock operation. The AWMP must re?ect production practices and be implemented accordingly. You must provide adequate storage capacity for solid and liquid wastes at all times so that land application occurs only during periods when soil and weather conditions are suitable. Monitoring, recordkeeping and reporting of waste applications, and inspection requirements must occur as described in an AWMP approved by ODA and requirements in section S4. of the permit. Note: Large concentrated CA F03 have additional requirements. You must apply manure, litter and process wastes to lands at agronomic rates in accordance with proper agricultural practices and as speci?ed in a waste management plan that has been approved by ODA. Waste applications must not exceed the capacity of the soil and crops to assimilate nutrients and minimize water pollution, must be quanti?able, and based on the NRCS Phosphorous Index, Agronomy Technical Note #26, revised June 2008, and must account for all other nitrogen and phosphorus. Prohibitions: if discharge to surface water or groundwater will result, application to ?ooded and saturated land is prohibited. Proposed waste and waste water application to frozen soil must be included in an AWMP. Land application of wastes or waste water during rainfall events that are expected to result in saturated soils or surface runoff is prohibited. If at any time you are unable to comply with any permit conditions, you have a duty to contact ODA immediately so the situation can be assessed and remedial actions taken if necessary. Note: If you have a discharge to surface water or groundwater that is not allowed by the permit, you must noti?i ODA within 24 hours of the discharge. Please call your area livestock water quality specialist (see page 1 for phone number) at or CA 0 Program support in Salem at (503) 986-4699. You must submit an annual report to ODA by March 15th of each year. SZ.E. 2 of the permit states that you ?must site, design, construct, operate, and maintain all waste storage facilities consistent with the AWMP. New and modi?ed construction of waste facilities must be approved in advance and prior to construction by ODA in conformance with ORS 468B.055 and OARs 340-051 and 603-074.? Experimental or unproven technologies must receive prior approval from ODA. For all other modi?cations or new construction, no approval will be required. Certi?cation forms are available from ODA. Prior to approving new permit coverage, renewing permit coverage, or approving proposed substantial changes to an AWMP, ODA will provide public notice and participation. I . . Ray Jaindl, Director Natural Resources and Pesticides Ankeridge Dairy AWMP Page 5-6 Overview of CAFO General 5 Permit Summary Name. Address . . . . . . .. .. Fax . Maximum Number ofAnimals . . 7. . . . . 5 Additional . 5 Generai Permit Discharges See permit section 82,1). 9 (it 10 for full text. .. Allowed Permit sections .3 32.13, p. 9; SEC, 5 pp. 9 a 10. Ankeridge Dairy AWMP Section 5 REFERENCES Notice of Registration and Oregon Con?ned Animal Feeding Operation (CAFO) National Pollutant Discharge Elimination System (NPDES) General Permit Summary ears" Agriculture (ODA) and Department of Environmental Quality (DEQ) and became effective on June 29, . 2009. The permit expires on May 31, 2014. A copy of the permit is enclosed. This Notice of Registration describes your speci?c permit registration information and an overview of perm it requirements. Your small Con?ned CAFO was registered to CAFO Permit No. 1-2009 on April 25, 2014, baSed on informatioaatsrided by mass. tellers; .. . . .M 35?? address. a931,?. . .. . Daily .8630 Sollie Smith Rd. Same 9.71.141 . . .. 7 a . 5 1205 MillerAve. 2..Tiilsn99.ls..91s .97 14 .. . . (503) 3547.59The maximum number of animals that may be held at this dairy CAFO is 235 based on a herd composition of 120 mature cows and 115 heifericalves. You may not exceed 5. this number by more than 10% or 25 animals, whichever is greater, without ?rst 5 providing ODA with a revised Animal Waste Management Plan (AW) and receiving written ODA approraiBased on the type and size of your operation, ODA has determined that you operate a Small CAFO. Note: Large Concentrated CAFOs have additional requirements. .. .. missindius Assn: i "iterates year, you at assessesagati?at;ttamassing registration ends .. youstrangeness," call your-"regain transmitter sanitygasses Ava (5e)?seams? the Salem of?ce at (303) 986?4699. Additional CAFO program information is available on the internet at -, The operator must be in tines. . of discharges are prohibited: Contaminated run off from continent eat or waste accumulation areas; Over?ow or discharges from waste storage facilities; 0 Discharges due to improper land application activities from surface drainages or ?eld tile outlets; Discharges due to equipment failure; and in was 0.5a and desi mi- . . . . 3 Production Area: Discharges of process waste water to surface waters of the state are generally prohibited except: When rainfall events cause an over?ow of process waste water ?'om a facility designed, constructed, operated, and maintained to contain all process-generated waste waters plus the ranch? and direct precipitation from a 25?year, 24-hour rainfall event provided these discharges do not cause or contribute I to a violation of state water quality standards; or i In the event of an upset or bypass condition. These conditions arefuri?her de?ned in thepermit. All authorized discharges from the production area must be properly land applied or otherwise handled in a way that minimizes impacts on surface water and groundwater sources. Land Application Area: Storm water runoff from the land application area is not considered a prohibited Page 5?7 Animal Waste Management Plan (AWMP) Requirement Permit section S3, pp. 12-15. Storage Requirement Permit section S2.E, p. 0. Monitoring, Reeordkeeping Reporting Permit section S4, pp. 16-19. Land Application Rates Timing Permit sections 52C, pp. 9 10; S3.C, p. 12 13. Duty to Report Noncomplianee Permit section p. 18. Annual Report Permit section S4.D.2, p. 18. Construction of Waste Storage and Waste Water Control Facilities Permit section 82.E.2, p. 10. Public Noticing Participation Permit section pp. 7 8. ?i 1 la Section 5 REFERENCES The permit requires that each permitted operation have a current AWMP approved by ODA. An AWMP describes how a CAFO is managed with respect to containment, treatment, storage, and utilization of manure, litter, and process wastewater in order to remain in compliance with permit conditions and water quality laws. The AWMP must accurately represent current land base, manure storage, herd/?ock size, and current management practices used at the livestock operation. The AWMP must re?ect production practices and be implemented accordingly. Yen must provide adequate storage capacity for solid and liquid wastes at all times so that land application occurs only during periods when soil and weather conditions are suitable. Monitoring, recordkeeping and reporting of waste applications, and inspection requirements must occur as described in an AWMP approved by ODA and requirements in section S4. of the permit. Note: Large concentrated CA 0s have additional requirements. You must apply manure, litter and process wastes to lands at agronomic rates in accordance with proper agricultural practices and as speci?ed in a waste management plan that has been approved by ODA. Waste applications must not exceed the capacity of the soil and crops to assimilate nutrients and minimize water pollution, must be quanti?able. and based on the NRCS Phosphorous Index, Agronomy Technical Note #26, revised June 2008, and must account for all other nitrogen and phosphorus. Prohibitions: If discharge to surface water or groundwater will result, application to ?ooded and saturated land is prohibited. Proposed waste and waste water application to frozen soil must be included in an AWMP. Land application of wastes or waste water during rainfall events that are expected to result in saturated soils or surface runoff is prohibited. If at any time you are unable to comply with any permit conditions, you have a duty to contact ODA immediately so the situation can be assessed and remedial actions taken if necessary. Note: If you have a discharge to surface water or groundwater that is no! allowed by the permit, you must notify ODA within 24 hours of the discharge. Please call your area livestock water quality specialist (see page I for phone number) at or CAFO Program support in Salem at (503) 986-4 699. You must submit an annual report to ODA by March 15th of each year. SZ.E. 2 of the permit states that you ?must site, design, construct, operate, and maintain all waste storage facilities consistent with the AWMP. New and modi?ed construction of waste facilities must be approved in advance and prior to construction by ODA in conformance with ORS 4688.055 and OARs 340-05] and 603-074.? Experimental or unproven technologies must receive prior approval from ODA. For all other modi?cations or new construction, no approval will be required. Certi?cation forms are available from ODA. Prior to approving new permit coverage, renewing permit coverage, or approving proposed substantial changes to an AWMP, ODA will provide public notice and participation. r" Ray Jaindl. Directdr Natural Resources and Pesticides Ankeridge Dairy AWMP Page 5-8 . ove?iew of. CAFO General Permit Summary . .. . Mailing Address Ethane), I. . fjfiff' ff] Fax E-mail Address Maximum Number of Animals ?antenna? Additional L..1nt9rnntinn . .. .. . .. Discharges See permit section =82, p.9&10 for full text. i'When ?l??ii?ii?lg? is Allowed Permit sections 52.13, p. 9; 82.0, 3 pp. 9 it}. Ankeridge Dairy AWMP . $55.1 .P?gniif, Section 5 REFERENCES Notice of Registration and Oregon Con?ned Animal Feeding Operation (CAFO) National Pollutant Discharge Elimination System (NPDES) General Permit Summary ?manager is??ii?li Agriculture (ODA) and Department of Environmental Quality (BBQ) and became c?'cctive on June 29, i 2009. The permit expires on May 31, 2014. A copy of the permit is enclosed. This Notice of Registration describes your speci?c permit registration information and an overview of permit requirements. Your Small CAFO was registered to CAFO Permit No. l-2009 on December 5, 2013 based on information provided, brrau. as Master ?61151 antenna: "Ndi?i?i?i lilies? ., ., Misses!cansnif,diifersnt .. . . Cornelius Anker Don Aufdennauer i 8680 Sollie Smith Rd. 1735 Wilson River Loop Rd. . .03 91.1.4 1. .. 3.93.9.3 .. .. . (503) 815-2756 . . ankeridge @hotmail.com The maximum number of animals that?m?ay be heidat this Small CAFO is 240 based on a herd composition of SS cows and 185 heifers/calves. You may not exceed this number by more than 10% or 25 animals, whichever is greater, without first providing ODA with a revised Animal Waste Management Plan (AWMP) and receiving .WrittanDA approva_1_-__ . . . . . Based on the type and size of your operation, ODA has determined that you operate a Small Con?ned CAFO. Note: Large Concentrated have additional . .. . . . gases nan asses as registration under generalpamit . .. .. .. .. . .. tailgatingsna: states; as: duality specialist for Area at (503) 84246278 or the Salem o?ice at (503) 986-4699. Additional CAFO program information is available on the internet at t. 'g ass as a assistancestainless as easements? star (at only this summary of Contaminated runoff from con?nement or waste accumulation areas; Over?ow or discharges from waste storage facilities; Discharges due to improper land application activities from surface drainages or field tile outiets; 0 Discharges due to equipment failure; and Leakage or seepagefrom facilities in the production, area in excess of approved designs. engages?agreements as analgesia-gone state are generally prohibited except: 0 When rainfall cause an over?ow of process waste water from a facility designed, constructed, operated, and maintained to contain all process-generated waste waters plus the runoff and direct precipitation from a 25-year, 24-hour rainfall event provided these discharges do not cause or contribute 5 to a violation of state water quality standards; or 1 In the event of an upset or bypass condition. hese conditions are/tamer de?ned in the permit. All authorized discharges from the production area must be properly land applied or otherwise handled in a way that minimizes impacts on surface water and groundwater sources. Land Application Area: Storm water runoff from the land application area is not considered-a prohibited assassins? lanes assessments Page 5?9 tenant's; anagement Plan P) Requirement Permit section S3, Section 5 REFERENCES The permit e??ii assess tags seesaw? assistes'ty?osrfaa describes how a CAPO is managed with respect to containment, treatment, storage, and utilization of manure, litter, and process wastewater in order to remain in compliance with permit conditions and water quality laws. The AWMP must accurately represent current land base, manure storage, herd/?ock size, and current management practices used at the livestock operation. The AWMP must re?ect production practices pp. 12-15. and be implemented accordingly. liquid wastes at anuse?a;artistsrestarts; Requirement occurs only during periods when soil and weather conditions are suitable. Permit section 10-. . 5. Recordkeeping& Reporting 3 Permit section 'Duii ii?n??agtw .Siianti?zl?n Rates Timing Permit sections S2.C, pp. 9 10; S3.C, p. 12 13. Noncompliance Permit section p. i8. Permit section Waste Storage and 2' Waste Water 2: Control Facilities 5 Permit section 5 Public Noticing 8r. Participation Permit section 1 Monitoring, and reporting of waste applications, and inspection requirements must occur as described in approved by ODA and requirements in section S4. of the permit. Note: Large concentrated CAFOs have additional requirements. You must apply manure, litter and process wastes to lands at agronomic rates in accordance with proper agricultural practices and as speci?ed in a waste management plan that has been approved by ODA. Waste applications must not exceed the capacity of the soil and crops to assimilate nutrients and minimize water pollution, must be quantifiable, and based on the NRCS Phosphorous Index, Agronomy Technical Note #26, revised June 2008, and must account for all other nitrogen and phosphorus. Prohibitions: If discharge to surface water or groundwater will result, application to ?ooded and saturated land is prohibited. Proposed waste and waste water application to frozen soii must be included in an AWMP. Land application of wastes or waste water during rainfall events that are expected to result in saturated soils lfat any time you are unable to comply with any permit conditions, you have a duty to contact ODA immediately so the situation can be assessed and remedial actions taken ifnecessaiy. Note: {fyoa have discharge to surface water or groumhvoter that is not allowed by the permit, you must noti?v ODA within 24 how's ofthc discharge. Please call your area livestock water quality specialist (seepage I for phone EQf?insram support in Swim at . .. . was must submit an mar-assists $55811}an 5 desist; facilities consistent with the AWMP. New and modi?ed construction of waste facilities must be approved in advance and prior to construction by ODA in conformance with ORS 4688.055 and OARs 340-051 1 and 603-074.? Experimental or unproven technologies must receive prior approval from ODA. For all other 5 modi?cations or new construction, no approval will be required. Certi?cation forms are available from QDA- rises 5:515 sing aspect"eateries", 1-star dissertations; or ass-sang changes to an AWMP, ODA will provide public notice and participation. 1 Ray Jaindl, Directdp? 5? 5 Natural Resources anti Pesticides Ankeridge Dairy AWMP Page 5?1 0 CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 OREGON CONFINED ANIMAL FEEDING OPERATION NATIONAL POLLUTANT DISCHARGE ELIMINATION SYSTEM GENERAL PERMIT NUMBER 01-2009 State of Oregon Department of Agriculture Natural Resources Division and Department of Environmental Quality Water Quality Division In compliance with the provisions of Oregon Revised Statutes (ORS) Chapter 468B, Oregon Administrative Rules (OAR) Chapter 603, Division 74, The Federal Water Pollution Control Act as Amended (The Clean Water Act), Title 33 United States Code, Section 1251 et seq., and The National Pollutant Discharge Elimination System (NPDES) program. Until this permit expires, is modified, or revoked, permittees who have properly obtained coverage under this permit are authorized to discharge to waters of the state in accordance with the special and general conditions the follow. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 2 of 24 TABLE OF CONTENTS DEFINITIONS ..................................................................................................................................................... 3 S1. PERMIT COVERAGE .............................................................................................................................. 5 S1.A. When is a Permit Required? ............................................................................................................. 5 S1.B. Election of Permit Coverage ............................................................................................................. 6 S1.C. Requirements and Schedule to Obtain Permit Coverage .................................................................. 6 S1.D. What does this Permit Authorize? ..................................................................................................... 6 S1.E. Request for Cancellation .................................................................................................................... 7 S1.F. Individual Permit Coverage ............................................................................................................... 7 S1.G. Request for Confidentiality ............................................................................................................... 7 S1.H. Public Notice and Participation Requirements .................................................................................. 7 S2. DISCHARGE LIMITATIONS AND OPERATING REQUIREMENTS ............................................. 9 S2.A. Discharge Limitations ...................................................................................................................... 9 S2.B. Production Area Limitations .............................................................................................................. 9 S2.C. Land Application Limitations ........................................................................................................... 9 S2.D. Direct Access by Animals to Surface Water in the Production Area Prohibited ............................... 10 S2.E. Waste Storage Facilities .................................................................................................................... 10 S2.F. Prevention of System Overloading .................................................................................................... 10 S2.G. Handling of Animal Mortalities ........................................................................................................ 10 S2.H. Proper Operation and Maintenance ................................................................................................... 10 S2.I. Maintaining Compliance if System Fails ........................................................................................... 10 S2.J. Setback Requirement ......................................................................................................................... 11 S2.K. Manure, Litter, or Process Waste Water Transfers ............................................................................ 11 S2.l. Proper Disposal of Other Wastes ....................................................................................................... 11 S3. ANIMAL WASTE MANAGEMENT PLAN ........................................................................................... 12 S3.A. Animal Waste Management Plan (AWMP) Implementation and Compliance ................................. 12 S3.B. AWMP Submittal and Public Notice ................................................................................................ 12 S3.C AWMP Elements ............................................................................................................................... 12 S3.D. AWMP Updates and Changes ........................................................................................................... 13 S4. MONITORING, INSPECTION, RECORDKEEPING, AND REPORTING REQUIREMENTS ....... 16 S4.A. Monitoring Requirements .................................................................................................................. 16 S4.B. Inspection Requirements ................................................................................................................... 17 S4.C. Record Keeping and Availability Requirements ............................................................................... 17 S4.D. Reporting Requirements .................................................................................................................... 17 S4.E. Additional Monitoring ....................................................................................................................... 19 G1. G2. G3. G4. G5. G6. G7. G8. G9. G10. G11. G12. G13. G14. G15. G16. G17. GENERAL CONDITIONS Noncompliance reporting requirements ......................................................................................................... 20 Additional reporting requirements [40 CFR §122.41(1)] ............................................................................... 20 Duty to comply[40 CFR §122.24(a)].............................................................................................................. 21 Compliance with other laws and statutes ........................................................................................................ 22 Property rights [40 CFR §122.41(g)].............................................................................................................. 22 Duty to reapply ............................................................................................................................................... 22 Need to halt or reduce activity not a defense [40 CFR §122.41(c)] ............................................................... 22 Duty to mitigate [40 CFR §122.41(d)] ........................................................................................................... 22 Proper operation and maintenance [40 CFR §122.41(e)] ............................................................................... 22 Permit actions ................................................................................................................................................. 22 Change of ownership or control ..................................................................................................................... 22 Duty to provide information [40 CFR §122.41(h)] ........................................................................................ 22 Inspection and entry [40 CFR §122.41(i)] ...................................................................................................... 23 Monitoring and records [40 CFR §122.41(j)] ................................................................................................. 23 Signatory requirement [40 CFR §122.21(k)] .................................................................................................. 23 Bypass [40 CFR §122.41(m)] ......................................................................................................................... 23 Upset [40 CFR §122.41(n)] ............................................................................................................................ 24 Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 3 of 24 DEFINITIONS 1. “25-year, 24-hour rainfall event” means an event with a probable recurrence interval of once in twenty-five years as defined by the National Weather Service in Technical Paper Number 40, “Rainfall Frequency Atlas of the United States,” May 1961, or equivalent regional or state rainfall probability information developed from this source. 2. “40 CFR means Title 40 of the Code of Federal Regulations (2008). 3. “Animal waste management plan” or “AWMP” means a written document containing the minimum elements necessary to manage manure, litter, and process waste water from operations covered by this permit in accordance with the terms and conditions of this permit. See S3.C, p. 12, for specific plan elements. 4. “CAFO” or “Confined animal feeding operation” as defined in OAR 603-074-0010(3) and OAR 340-051-0010(2) means: (a) The concentrated confined feeding or holding of animals or poultry, including but not limited to horse, cattle, sheep, or swine feeding areas, dairy confinement areas, slaughterhouse or shipping terminal holding pens, poultry and egg production facilities and fur farms; (i) In buildings or in pens or lots where the surface has been prepared with concrete, rock or fibrous material to support animals in wet weather; or (ii) That have wastewater treatment works; or (iii) That discharge any wastes into waters of the state; or (b) An animal feeding operation that is subject to regulation as a concentrated animal feeding operation pursuant to 40 CFR §122.23. 5. “Director” means the director of the State of Oregon Department of Environmental Quality and the Department of Agriculture or their authorized designee(s). 6. “Discharge” when used without qualification means the “discharge of a pollutant.” “Discharge of a pollutant” is defined at 40 CFR §122.2. 7. “Frozen soil” means soil that has a soil temperature of 32o F (or 0o C) or less in 3 continuous inches of the top twelve (12) inches of soil. 8. “Groundwater” means water in a saturated zone or stratum beneath the surface of land or below a surface water body. 9. “Manure” means manure or other material (e.g., bedding, compost, litter, feed waste, silage leachate, raw materials such as feed or silage) that comes into contact with manure. 10. “Medium confined animal feeding operation” means a confined animal feeding operation that meets the animal numbers specified in any of the following categories. A state medium confined animal feeding operation is only required to apply for this permit if it confines for more than four (4) months and has a waste water control facility or disposal system for wet or dry wastes. (See Table 1: CAFOs Requiring Permit Coverage.) (a) 200 to 699 mature dairy cattle, whether milked or dry; (b) 300 to 999 veal calves; (c) 300 to 999 cattle other than mature dairy cows or veal calves. Cattle includes but is not limited to heifers, steers, bulls and cow/calf pairs; (d) 750 to 2,499 swine each weighing 55 pounds or more; (e) 3,000 to 9,999 swine each weighing less than 55 pounds; (f) 150 to 499 horses; (g) 3,000 to 9,999 sheep or lambs; (h) 16,500 to 54,999 turkeys; (i) 9,000 to 29,999 laying hens or broilers, if the operation uses waste water control facilities for wet waste; (j) 37,500 to 124,999 chickens (other than laying hens), if the operation uses waste water control facilities for wet waste; (k) 25,000 to 81,999 laying hens, if the operation does not use waste water control facilities for wet waste; (l) 10,000 to 29,999 ducks if the operation does not use waste water control facilities for wet waste; or (m) 1,500 to 4,999 ducks if the operation uses waste water control facilities for wet waste. (n) For other animal types, ODA will determine the appropriate animal numbers by comparing the operation to the most similar animal type listed above. 11. “New source” means any building, structure, facility, or installation from which there is or may be a “discharge of pollutants,” the construction of which commenced after April 14, 2003. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 4 of 24 12. “Overflow” means the discharge of manure or process waste water resulting from the filling of waste water or manure storage structures beyond the point at which no more manure, process waste water, or storm water can be contained by the structure. 13. “Person” is defined at OAR 603-074-0010(13). 14. “Point source” is defined at 40 CFR §122.2. 15. “Pollutant” is defined in 40 CFR §122.2. 16. “Pollution” or “water pollution” as defined in ORS 468B.005(5). 17. “Process waste water” or “process wastes” as defined at OAR 603-074-0010(17) and OAR 603-051-0010(2) means water directly or indirectly used in the operation of the CAFO for any or all of the following: spillage or overflow from animal or poultry watering systems; washing, cleaning or flushing pens, barns, manure pits, or other CAFO facilities; direct contact swimming, washing, or spray cooling of animals; or dust control. Process waste water or process wastes also includes any water that comes into contact with any raw materials, products, or byproducts including manure, litter, feed, milk, eggs, or bedding. 18. “Production area” as defined at OAR 603-074-0010(18) and OAR 603-051-0010(3) means that part of a CAFO that includes the animal confinement area, the manure storage area, the raw materials storage area, and the waste containment areas. The animal confinement area includes but is not limited to open lots, housed lots, feedlots, confinement houses, stall barns, free stall barns, milkrooms, milking centers, cowyards, barnyards, medication pens, walkers, animal walkways, and stables. The manure storage area includes but is not limited to lagoons, runoff ponds, storage sheds, stockpiles, under house or pit storages, liquid impoundments, static piles, and composting piles. The raw materials storage area includes but is not limited to feed silos, silage bunkers, and bedding materials. The waste containment areas include but are not limited to settling basins, and areas within berms and diversions that separate uncontaminated storm water. Also included in the definition of production area is any egg washing or egg processing facility, and any area used in the storage, handling, treatment, or disposal of animal mortalities. 19. “Saturated soil” means soil with all available pore space filled that has reached its maximum retentive capacity as defined in “Qualitative Description of Soil Wetness” (Brady, N. and Weil, R., p. 201). 20. “Setback” as defined at 40 CFR §412.4(b)(1) means a specified distance from surface waters or potential conduits to surface waters where manure, litter, and process waste water may not be land applied. Examples of conduits to surface waters include but are not limited to: Open tile line intake structures, sinkholes, and agricultural well heads. 21. “State confined animal feeding operation” means a confined animal feeding operation with animal numbers below the medium confined animal feeding operation levels that is not designated as a small concentrated animal feeding operation. A small confined animal feeding operation is only required to apply for this permit if it confines for more than for (4) months and has a waste water control facility or disposal system for wet wastes. (See Table 1: CAFOs Requiring Permit Coverage.) 22. “Vegetative buffer” as defined at 40 CFR §412.4(b)(2) means a narrow, permanent strip of dense perennial vegetation established parallel to the contours of and perpendicular to the dominant slope of the field for the purposes of slowing water runoff, enhancing water infiltration, and minimizing the risk of any potential nutrients or pollutants from leaving the field and reaching surface waters. 23. “Wastes” is defined at ORS 468B.005(9). 24. “Waste storage facilities” means the physical system used for the isolation and retention of process wastes on the confined animal feeding operation until their ultimate utilization. 25. “Waste water control facility” means a “disposal system” or “treatment works” is defined at ORS 468B.005(8). 26. “Water” or “waters of the state” is defined at ORS 468B.005(10). 27. “Waters of the U.S.” is defined at 40 CFR §122.2. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 5 of 24 SPECIAL CONDITIONS S1. PERMIT COVERAGE S1.A. When is a Permit Required? 1. Pursuant to ORS 468B.200, it is the policy of the State of Oregon to protect the quality of groundwater and surface waters of Oregon by preventing animal wastes from discharging into waters of the state. To implement this policy, ORS 468B.050(1)(d) requires that any person who owns or operates a confined animal feeding operation (CAFO) listed in S1.A.2 below obtain a permit from ODA and DEQ. As a result, there is no state process to certify that a CAFO does not discharge or propose to discharge to waters of the state and permit coverage is required regardless of discharge status. Coverage under this general permit is required for all CAFOs listed in S!.A.2 unless application is made for an individual permit or an individual permit is required by ODA and DEQ. 2. Any person who owns or operates a CAFO defined as follows is required by ORS 468B.050(1)(d) to obtain coverage under this permit (see Table 1 below for more detail): (a) State small confined animal feeding operation that confines animals for more than four (4) months and has a waste water control facility or disposal system for wet or dry wastes. (b) State medium confined animal feeding operation that confines animals for more than four (4) months and has a waste water control facility or disposal system for wet or dry wastes. (c) Small, medium, or large concentrated animal feeding operation defined in 40 CFR §122.23(b). Table 1: CAFOs Requiring Permit Coverage CONFINED Type of confined animal feeding operation requiring permit coverage  Confines more than one animal for more than 4 months on prepared surface Small Confined  Waste water control facility or disposal system for wet wastes Medium Confined  Waste water control facility or disposal system for wet or dry wastes CONCENTRATED  Stabled or confined and fed or maintained for total of 45 days or more in any 12-month period  Crops, vegetation, forage growth, or post-harvest residues not sustained in normal growing season in lot or facility Small Concentrated Medium Concentrated Large Concentrated [40 CFR §122.23(b)(4)]  Significant contributor  Discharging of pollutants to waters pollutants to waters of the U.S. of the U.S.  Designated by Director [40 CFR §122.23(b)(6)] [40 CFR §122.23(b)(9)] mature dairy cows1 <200 200-699 <200 200-699 ≥700 veal calves <300 300-999 <300 300-999 ≥1,000 cattle2 <300 300-999 <300 300-999 ≥1,000 swine ≥ 55 lbs <750 750-2,499 <750 750-2,499 ≥2,500 swine < 55 lbs <3,000 3,000-9,999 <3,000 3,000-9,999 ≥10,000 horses <150 150-499 <150 150-499 ≥500 sheep or lambs <3,000 3,000-9,999 <3,000 3,000-9,999 ≥10,000 turkeys <16,500 16,500-54,999 <16,500 16,500-54,999 ≥55,000 chickens, including laying hens or <9,000 9,000-29,999 <9,000 9,000-29,999 ≥30,000 broilers w/wet waste system laying hens w/dry NA 25,000-81,999 <25,000 25,000-81,999 ≥82,000 waste system Broiler chickens w/dry waste NA 37,500-124,999 <37,500 37,500-124,999 ≥125,000 system ducks w/other than <10,000 10,000-29,999 <10,000 10,000-29,999 ≥30,000 wet waste system ducks w/wet <1,500 1,500-4,999 <1,500 1,500-4,999 ≥5,000 waste system other animal type As determined by ODA3 Designated by director. NA NA 1 Whether milked or dry 2 Other than mature dairy cows or veal calves, cattle includes but is not limited to heifers, steers, bulls and cow/calf pairs. 3 To determine the number of animals that require permit coverage, ODA will compare the operation to the most similar animal type in the table. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 6 of 24 3. Any person not wishing to be covered by this permit may apply for an individual permit in accordance with OAR 340-045-0030. Note: Failure to obtain coverage under this permit is a violation of ORS 468B.050 and 468B.215 except as provided in S1.F Individual Permit Coverage, p. 7. S1.B. Election of Permit Coverage Any person who owns or operates a CAFO who is not required to obtain coverage under this permit may elect to be covered by this permit. Any person making such an election is subject to all terms and conditions of the permit unless and until permit coverage is terminated. S1.C. Requirements and Schedule to Obtain Permit Coverage 1. Application for Proposed CAFO To obtain permit coverage, any person proposing a new CAFO that is regulated by this permit (see S1.A above) or electing to be covered by this permit must submit an ODA Application to Register (ATR) and Animal Waste Management Plan (AWMP) at least 180 days prior to the time that the operation commences. For information on AWMP requirements, see S3, p. 12. S1.D. 2. Future Renewal of General Permit Coverage To renew general permit coverage, the pemittee must submit a renewal application by the date specified by ODA but no later than the expiration date of this permit. 3. ODA will notify the applicant in writing if permit coverage is approved or denied. Permit coverage does not begin until this written notice is provided by ODA to the applicant. Written notification will include a Notice of Registration that will include the following: (a) The owner or operator's name; (b) Facility name and location; (c) Contact information including mailing address and telephone number; (d) Effective date of permit coverage; (e) Maximum number of animals allowed at the facility; and (f) Regulatory status of the operation. (i) ODA will use the following classifications for regulatory status: (1) Large concentrated animal feeding operation as defined in 40 CFR §122.23(b)(4); (2) Medium concentrated animal feeding operation as defined in 40 CFR §122.23(b)(6); (3) Small concentrated animal feeding operation as defined in 40 CFR §122.23(b)(9) and designated by the director pursuant to ORS 603-074-0012; (4) Medium confined animal feeding operation as defined in this permit (#10, p. 3); or (5) Small confined animal feeding operation as defined in this permit (#21, p. 4). (ii) A small or medium confined animal feeding operation will be categorized as concentrated if: (1) A discharge to waters of the U.S. occurs that is not allowed by this general permit, and (2) The operator does not or cannot make the change(s) necessary to prevent such discharge from recurring to the satisfaction of ODA. 4. Coverage under this permit will be canceled upon the issuance of an individual permit. General Permit Coverage 1. Consistent with ORS 468B.200, ODA and DEQ developed this general permit to prohibit routine discharges of manure, litter, and process waste water from CAFO operations to waters of the state. Discharges of manure, litter, or process waste water to waters of the state are only expected to occur under extreme weather conditions and as limited by the conditions of this general permit. Further, the general permit only authorizes the discharge of pollutants resulting from the processes, wastes, and operations that have been clearly identified in the permittee’s AWMP approved by ODA. Ankeridge Dairy AWMP 2. 3. S1.E. Except for any toxic effluent standards and prohibitions imposed under section 307 of the federal Clean Water Act (CWA) and groundwater protection requirements established under OAR 340-040, a permittee in compliance with this permit during its term is considered to be in compliance, for purposes of enforcement, with state water quality laws and relevant sections of the CWA, as provided in 40 CFR §122.5. The specific effect of permit compliance on enforcement authority is set out in OAR 340-045-0080. Request for Cancellation 1. Any permittee may request in writing to ODA that coverage under this permit be cancelled if: (a) Conditions or standards have changed so that the CAFO no longer qualifies for or is required to have coverage under this permit; or (b) The CAFO no longer has animals on site and all waste storage and control facilities have been decommissioned in accordance with Natural Resources Conservation Service (NRCS) conservation practice standard, code 360, entitled Closure of Waste Impoundments (Jan. 2006); and (c) The permittee certifies that it will not commence operation of a CAFO regulated by this permit at the same location without making a new application for registration under this general permit and is granted coverage or applies for and is issued an individual permit. 2. S1.F. CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 7 of 24 This permit does not cover disposal of human wastes or waste water control systems that mix human and animal wastes. Any person owning or operating such a system must apply to DEQ for coverage under an individual or general permit issued pursuant to ORS 468B.050. This general permit for CAFOs may be used in addition to an individual or general permit issued by DEQ pursuant to ORS 468B.050. ODA will respond to the request for cancellation by conducting a site inspection and a review of the permittee’s file. ODA will notify the permittee in writing of termination of coverage under this permit or deny the request with an explanation of why the request was denied. Individual Permit Coverage 1. When appropriate, the director may require any person to obtain an individual permit pursuant to OAR 3400033(10). In such cases, the person will be notified in writing by the director. This written notice will include the reason why an individual permit is being required, an application form, the amount of the permit fee due at application, and application due date. 2. If coverage under this permit has been obtained prior to the requirement for an individual permit, this permit will remain effective until the individual permit is issued provided the application for individual permit was properly made. S1.G. Request for Confidentiality The name and address of an NPDES permit applicant or permittee, NPDES permit applications (e.g., ODA ATRs) and their attachments (e.g., AWMPs), NPDES permits, and NPDES permit discharge data cannot be kept confidential pursuant to 40 CFR §122.7(b) and (c). For other information, the permittee may request that the director evaluate claims of confidentiality according to the procedures established in ORS 468.095(2). S1.H. Public Notice and Participation Requirement 1. Prior to approving new permit coverage, renewing permit coverage, or approving proposed substantial changes to an AWMP, ODA will provide public notice and participation in Table 2 below. 2. ODA may batch multiple notices as regionally appropriate. 3. Application and permit documents (e.g., ODA ATR, renewal application, AWMP) will be available for public review at ODA headquarters and appropriate field offices. If available, electronic copies of documents will be provided upon request. 4. Public hearings will be scheduled if written requests for public hearing are received during the comment period from at least ten persons or from an organization or organizations representing at least ten persons. If a hearing is scheduled, ODA will provide at least 30 days notice before the hearing is held. The public comment period will remain open for additional comments for at least 7 days after the public hearing. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 8 of 24 Table 2: CAFO Public Notice Requirements (i) Public notice of a comment period of at least 35 days provided as follows:  Posted on ODA and DEQ websites; and  Emailed to interested parties list maintained by ODA. (ii) Opportunity for public hearing. See S1.H.4, p. 7. (iii) A written response to relevant comments will be developed by ODA and made available to interested parties. (i) Public notice of a comment period of at least 14 days provided as follows:  Posted on ODA and DEQ websites; and  Emailed to interested parties list maintained by ODA. (ii) Opportunity for public hearing. See S1.H.4, p. 7. (iii) A written response to relevant comments will be developed by ODA and made available to interested parties. Small, Medium or Large Concentrated 3. Receipt of proposed substantial change to small or medium, or large concentrated animal feeding operation’s AWMP (see S3.D.2, p. 14) (i) Public notice of a comment period of at least 35 days provided as follows:  Posted on ODA and DEQ websites; and  Emailed to interested parties list maintained by ODA. (ii) Opportunity for public hearing. See S1.H.4, p. 7. (iii) A written response to relevant comments will be developed by ODA and made available to interested parties.       All Operations Permit Action 1. Public Participation Process (i) Public notice of a comment period of at least 35 days provided as follows:  Published in regional newspaper;  Posted on ODA and DEQ websites; and  Emailed to interested parties list maintained by ODA. (ii) Opportunity for public hearing. See S1.H.4, p. 7. (iii) A written response to relevant comments will be developed by ODA and made available to interested parties.  Name of operation  Name of operator or owner if different than operator, mailing address, and telephone number  Physical address of operation  Type of operation  Number of animals proposed  Land Use Compatibility Statement (LUCS)  AWMP summary Contents of Public Notice Note: Access to the AWMP will also be provided for public review; however, not all AWMPs will be available electronically. Receipt of ODA ATR (Application to Register) for existing operation not under permit or new proposed operation Ankeridge Dairy AWMP 1.   Receipt of renewal application Name of operation City, county, and zip code Permit registration number Type of operation Small or Medium Confined 2. Receipt of proposed substantial change to small or medium confined animal feeding operation’s AWMP (see S3.D.1, p. 13)    Name of operation City, county, and zip code Permit registration number Type of operation Overview of proposed substantial change    Name of operation City, county, and zip code Permit registration number Type of operation Overview of proposed substantial change CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 9 of 24 S2. DISCHARGE LIMITATIONS AND OPERATING REQUIREMENTS S2.A. Discharge Limitations The permittee is prohibited from discharging manure, litter, or process wastes to surface waters and groundwaters of the state, except as allowed in S2.B and S2.C and provided these discharges allowed in S2.B and S2.C do not cause or contribute to a violation of state water quality standards. Discharges to surface water due to upset or bypass are authorized only in accordance with applicable requirements in G16 Bypass [40 CFR §122.41(m)], p. 23 and G17 Upset [40 CFR §122.41(n)], p. 24. Types of discharge that are prohibited include but are not limited to: contaminated runoff from confinement or waste accumulation areas; overflow or discharges from waste storage facilities; discharges due to improper land application activities from surface drainages or field tile outlets, discharges due to equipment failure; or leakage or seepage from facilities in the production area in excess of approved designs. S2.B. S2.C. Production Area Limitations 1. For all small and medium confined animal feeding operations and small, medium, and large concentrated animal feeding operations, except new source swine, poultry, and veal large concentrated animal feeding operations: The permittee is prohibited from discharging manure, litter, or process waste water to surface waters of the state from the production area, except when: (a) Rainfall events cause an overflow of waste management and storage facilities designed, constructed, operated, and maintained to contain all manure, litter, and process waste waters including the contaminated runoff and direct precipitation from a 25-year, 24-hour rainfall event; and (b) The production area is operated in accordance with the applicable inspection, maintenance, recordkeeping, and reporting requirements of this permit. 2. For new source swine, poultry, and veal large concentrated feeding operations: The permittee is prohibited from discharging manure, litter, or process waste water to surface waters of the state. 3. The permittee must properly land apply or otherwise handle authorized discharges from the production area in a way that minimizes impacts on surface water or groundwater of the state and complies with state water quality standards. 4. The permittee must not exceed the seepage design rates approved by ODA for waste storage or animal confinement facilities and seepage to groundwater from these facilities must not violate state groundwater quality protection standards. Land Application Limitations 1. When applying manure, litter, and process waste water to lands, the permittee must apply at agronomic rates in accordance with the permittee’s ODA-approved AWMP. Land application areas include land under the control of the permittee, whether it is owned, rented, or leased, to which manure, litter, or process waste water from the production area is or may be applied. 2. The permittee’s discharges to groundwater due to seepage below the root zone of the crop or by other means must not violate state groundwater quality protection standards. 3. The permittee is allowed to apply manure, litter, or process waste water to frozen soil provided: (a) Its AWMP addresses such applications [see S3.C.3(j)]; (b) Discharge to surface waters and groundwaters of the state will not occur, except as allowed in S2.B and S2.C; and (c) Land applications do not cause or contribute to a violation of state water quality standards. Ankeridge Dairy AWMP 4. CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 10 of 24 The permittee is prohibited from applying manure, litter, or process waste water to saturated soils or during rainfall events that are expected to result in saturated soils or surface runoff. When such a application is a desired alternative to allowing waste storage or waste water control facilities to overflow (e.g., land application to saturated soils to pond waste water onsite provides for greater protection of surface waters than a direct overflow of a waste storage tank to surface waters), the land application will be considered an upset condition and the permittee must comply with the provisions of G17 Upset [40 CFR §122.41(n)], p. 24. S2.D. Direct Access by Animals to Surface Water in the Production Area Prohibited The permittee must prevent direct animal contact with surface waters of the state in the production area of its CAFO. Direct animal contact means any situation where animals in the production area have free access and are allowed to loiter or drop waste in surface waters. Direct contact with surface waters by animals on pasture or rangeland is not, by itself, a violation of this permit. S2.E. Waste Storage Facilities 1. The permittee must provide adequate storage capacity for solid and liquid wastes at all times so that land application occurs only during periods when soil and weather conditions allow for agronomic application and are in compliance with the Land Application Limitations in Condition S2.C, p. 9 of this permit. S2.F. 2. The permittee must site, design, construct, operate, and maintain all waste storage facilities consistent with the AWMP. New and modified construction of waste facilities must be approved in advance and prior to construction by ODA in conformance with ORS 468B.055 and OARs 340-051 and 603-074. 3. The permittee with a large concentrated animal feeding operation must also have depth markers in all surface liquid impoundments (e.g., lagoons, ponds, tanks) designed to clearly indicate the: (a) Maximum design volume, (b) Minimum capacity necessary to contain the 25-year, 24-hour rainfall event, including additional freeboard requirements, and (c) Depth of manure and process waste water. Prevention of System Overloading 1. The permittee may not increase the number of animals over 10% or 25 animals, whichever is greater, of the maximum number assigned by ODA in the Notice of Registration and General Permit Summary until an updated plan is approved in writing by ODA (see S3.B AWMP Submittal, p. 12, and S3.D AWMP Changes, p. 13). 2. Animal numbers must not exceed the capacity of the waste storage facilities. S2.G. Handling of Animal Mortalities The permittee must not dispose of animal mortalities in liquid manure or waste water control facilities. Animal mortalities must be handled in such a way as to prevent discharge of pollutants to surface water or groundwater. S2.H. Proper Operation and Maintenance The permittee must at all times properly operate and maintain all facilities and systems used for process waste water collection, storage and utilization, and correct any deficiencies found as soon as possible. S2.I. Maintaining Compliance if System Fails The permittee must control all applications and discharges upon reduction, loss or failure of the waste storage or utilization facilities until the facilities are restored or an alternative method of storage or utilization is provided. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 11 of 24 S2.J. S2.K. S2.L. Setback Requirement The permittee must develop a setback for any mechanical application of manure, litter, or process waste water occurring in the land application area(s) adjacent to any surface waters, open tile intake structures, sinkholes, well heads, or other conduits to surface or ground waters where manure, litter, and other process waste waters are prohibited. The setback distances must be included in the permittee’s AWMP. For large concentrated animal feeding operation, this setback must be 100 feet or as a compliance alternative and if demonstrated to the satisfaction of ODA in the AWMP, the permittee for the large concentrated animal feeding operation may: 1. Establish a 35-foot vegetated buffer where manure, litter, and other process waste waters are prohibited; or 2. Demonstrate that a setback or vegetated buffer is not necessary or may be reduced because implementation of alternative conservation practices or field-specific conditions will provide pollutant reductions equivalent or better than the reductions that would be achieved by the 100 foot setback. Manure, Litter, or Process Waste Water Transfers 1. The permittee retains responsibility of the manure, litter, or process waste water until the transfer or export is completed with the required documentation. 2. The permittee must maintain manure, litter, or process waste water transfer or export records as required by S4.C.2(d), p. 17. 3. Prior to transferring manure, litter, or process waste water to other persons, the permittee with a large concentrated animal feeding operation must provide the recipient of manure, letter, or process waste water with the a manure nutrient analysis conducted within the previous 12 months. Proper Disposal of Other Wastes Chemicals, contaminants, and other wastes may not be disposed of in any treatment or storage system for contaminated storm water from the production area, manure, litter, or process waste water unless the system is designed to treat such chemicals, contaminants, or wastes and the chemical, contaminants, or other wastes are identified in the AWMP. In addition, chemicals, contaminants, and other wastes may not be disposed of in any system designed for diversion of uncontaminated storm water. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 12 of 24 S3. ANIMAL WASTE MANAGEMENT PLAN S3.A. S3.B. S3.C. Animal Waste Management Plan (AWMP) Implementation and Compliance 1. Upon registration to this permit, the permittee must implement its current ODA-approved AWMP developed for its CAFO. 2. The permittee’s ODA approved AWMP is incorporated into this permit by reference. The permittee must comply with all terms and conditions of its ODA-approved AWMP. Failure to comply with the ODAapproved AWMP constitutes a violation of the terms and conditions of this permit. 3. Absence of a AWMP or absence of ODA approval of an AWMP does not allow the permittee to violate the provisions of S2 Discharge Limitations and Operating Requirements, p. 9 or other permit requirements. AWMP Submittal and Public Notice 1. The applicant proposing a new CAFO or electing coverage under this permit must submit its AWMP with the ODA ATR to ODA for review and approval according to the schedule provided in S1.C, p. 6. 2. If necessary to meet the AWMP requirements in this permit, the existing permittee with coverage under the previous version of this general permit must submit a revised or updated AWMP prior to renewing registration under this permit. 3. AWMPs are subject to public notice and participation requirements detailed in condition S1.H, p. 7. AWMP Elements 1. The permittee must ensure that its AWMP is adequate for the proposed or existing population of animals, reflective or the proposed or existing facility operation, and be prepared in accordance with the terms and conditions of this permit, OAR 340-051, and NRCS conservation practice standard guidance 590 for Oregon dated May 2008 entitled Nutrient Management. Note: In the event of any inconsistency between the conditions of this permit and NRCS 590, the conditions of this permit apply. 2. The AWMP may include a schedule for improvement projects. 3. The AWMP must to the extent applicable include the following: (a) Procedures to ensure adequate collection, handling, and storage of contaminated strom water runoff from the production area, manure, litter and process waste water in compliance with the requirements of S2. Discharge Limitation and Operating Requirements. Calculations used to determine that storage capacity exists must be provided, including a demonstration the facilities are at least designed and constructed to contain all manure, litter, process waste water, contaminated storm water runoff from the production area, and direct precipitation from a 25-year, 24-hour rainfall event. (b) Procedures to ensure proper operation and maintenance of the storage facilities; (c) Procedures to ensure proper management of animal mortalities. Animal mortalities may not be disposed of in any storage or treatment system that is not specifically designed to treat animal mortalities; (d) Procedures to ensure that clean water is diverted, as appropriate, from the production area; (e) Procedures to prevent direct contact of confined animals with surface waters; (f) Identification of appropriate site-specific conservation practices to be implemented, including buffers, setback areas, or equivalent practices, to control runoff of pollutants to surface water and groundwater; (g) Protocols to land apply manure, litter or process waste water in accordance with site specific nutrient management practices that ensure appropriate agricultural utilization of the nutrients in the manure, litter or process waste water. The protocols must include the following: (i) The NRCS Phosphorous Index, USDA/NRCS Oregon Agronomy Technical Note #26, revised June 2008, must be completed for all fields that receive manure , litter or process waste water to determine if nitrogen or phosphorous is the most limiting nutrient. The maximum nutrient Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 13 of 24 application rate must be calculated for the most limiting nutrient (from Technical Note #26) and must account for all other nitrogen and phosphorus sources. (ii) Expected crop yields. (iii) Calculations showing the total nitrogen and phosphorus to be applied annually to each field, including sources other than manure, litter, or process waste water. (iv) Annual manure application rates and an explanation of the basis for determining these rates. For large concentrated animal feeding operations, these rates must be based on actual test data. For other operations, data or “book values” from established reference sources (e.g., Oregon Animal Waste Management program) may be used instead of actual testing. (v) Method(s) used to apply manure, litter, or process waste water. (h) For large concentrated animal feeding operations, protocols for appropriate testing of manure, litter, process waste water, and soil. For other operations, references used instead of actual testing data or test protocols if testing. (i) If applicable, an Agricultural Compost Management Plan as required by OAR 340-096. (j) Frozen soil application procedures if applications of manure, litter, or process waste water will be made to frozen soil. At a minimum, the following must be provided: (i) Description of the potential receiving field(s), estimates of waste amounts and types, and estimated timing of applications. (ii) Aerial photo(s) identifying all areas and surface water bodies within 1,000 ft. of the boundaries of the receiving field(s). (iii) Soil map(s) identifying soil types for receiving field(s). (iv) Topographic map(s) for receiving field(s). (v) Description of the structural practices in place to ensure that no discharges to surface water occur during application and after the soil thaws. (vi) Description of the method used to determine when soil is frozen and management practices to be followed when planning an application and during and after an application to frozen soil. (vii) Description of monitoring and reporting requirements to ensure that the permittee is in compliance with frozen soil application procedures. (k) Procedures for transfer or export of manure, litter, or process waste water. (l) Identification of specific records that will be maintained to document the implementation and management of the minimum elements described above. S3.D. AWMP Changes 1. Requirements for small or medium confined animal feeding operations (see Table 3,p. 15, for an overview) (a) Substantial changes. The permittee must submit any proposal to make substantial changes to its AWMP to ODA for approval at least 45 days in advance of the proposed changes. ODA will public notice the proposal as described in S1.H, p. 7. ODA will notify the permittee of its final decision concerning the proposed changes after the public notice period ends. The permittee may not implement a proposed change until ODA has approved it. The following types of changes to an AWMP are considered substantial: (i) A change in the type of manure system including but not limited to switching from a dry to a liquid manure system, switching from a liquid to a dry manure system, or changing the manure system to accommodate an animal species or type of operation not included in the scope of the current AWMP. (ii) An increase in maximum allowed animal numbers such that the operation becomes defined as a large concentrated animal feeding operation. (b) Non-substantial changes. Public notice of non-substantial changes (described below) to an AWMP is not required; however, the permittee must submit its proposal to make such a change to ODA for approval at least 45 days in advance of the proposed change unless a different timeframe is allowed by ODA. ODA will notify the permittee of its final decision concerning the proposed change after reviewing the proposal. The permittee may not implement a proposed change until ODA has approved it. The following changes to an AWMP are considered non-substantial provided they do not result in a substantial modification listed in paragraph (a) above: Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 14 of 24 (i) An increase in animal numbers greater than 10% of the registrant’s maximum allowed animal numbers provided the increase does not change the operation into a large concentrated animal feeding operation. (ii) When facility expansions, production increases, or process modifications will result in new or increased generation of waste, litter, or process waste water beyond the scope of the current AWMP. 2. Requirements for small, medium or large concentrated animal feeding operations (see Table 3,p. 15, for an overview): (a) Substantial changes. The permittee must submit any proposal to make substantial changes to its AWMP to ODA for approval at least 60 days in advance of the proposed changes. ODA will public notice the proposal as described in S1.H, p. 7. ODA will notify the permittee of its final decision concerning the proposed changes after the public notice period ends. The permittee may not implement a proposed change until ODA has approved it. The following types of changes to an AWMP are considered substantial: (i) Addition of new land application areas not previously included in the AWMP, unless the land application area is covered by an existing AWMP that has already been incorporated into an existing NPDES permit and the application of manure, litter, or process waste water on the newly added land application area is in accordance with that existing NPDES permit. (ii) Any changes to the field-specific maximum annual rates for land application. (iii) Any changes to the maximum amounts of nitrogen and phosphorus derived from all sources for each crop. (iv) Addition of any crop or other uses not included in the AWMP and corresponding field-specific rates of application. (v) A change in the type of manure system including but not limited to switching from a dry to a liquid manure system, switching from a liquid to a dry manure system, or changing the manure system to accommodate an animal species or type of operation not included in the scope of the current AWMP. (vi) Any changes that are likely to increase the risk of nitrogen and phosphorus transport to surface waters or groundwaters. (b) Non-substantial changes. Public notice of non-substantial changes (described below) to an AWMP is not required; however, the permittee must submit its proposal to make such a change to ODA for approval at least 60 days in advance of the proposed change unless a different timeframe is allowed by ODA. ODA will notify the permittee of its final decision concerning the proposed change after reviewing the proposal. The permittee may not implement a proposed change until ODA has approved it. The following changes to an AWMP are considered non-substantial provided they do not result in a substantial modification listed in paragraph (a) above: (i) An increase in animal numbers greater than 10% of the registrant’s maximum allowed animal numbers. (ii) When facility expansions, production increases, or process modifications will result in new or increased generation of waste, litter, or process waste water beyond the scope of the current AWMP. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 15 of 24 Table 3: Overview of Requirements for Proposed Changes to AWMPs SMALL OR MEDIUM CONFINED SMALL, MEDIUM OR LARGE CONCENTRATED Substantial Change Non-Substantial Change Substantial Change Description of proposed change 1. A change in the type of manure system including but not limited to switching from a dry to a liquid manure system, switching from a liquid to a dry manure system, or changing the manure system to accommodate an animal species or type of operation not included in the scope of the current AWMP. 2. An increase in maximum allowed animal numbers such that the operation becomes defined as a large concentrated animal feeding operation. The following are considered non-substantial provided they do not result in a substantial change: 1. An increase in animal numbers greater than 10% of the registrant’s maximum allowed animal numbers. 2. When facility expansions, production increases, or process modifications will result in new or increased generation of waste, litter, or process waste water beyond the scope of the current AWMP. The following are considered non-substantial provided they do not result in a substantial change: 1. An increase in animal numbers greater than 10% of the registrant’s maximum allowed animal numbers. 2. When facility expansions, production increases, or process modifications will result in new or increased generation of waste, litter, or process waste water beyond the scope of the current AWMP. Timeline to submit proposal to ODA Submit at least 45 days in advance of proposed change(s). Submit at least 45 days in advance of proposed change(s) unless a different timeframe allowed by ODA. 1. Addition of new land application areas not previously included in the AWMP, unless the land application area is covered by an existing AWMP that has already been incorporated into an existing NPDES permit and the application of manure, litter, or process waste water on the newly added land application area is in accordance with that existing NPDES permit. 2. Any changes to the fieldspecific maximum annual rates for land application. 3. Any changes to the maximum amounts of nitrogen and phosphorus derived from all sources for each crop. 4. Addition of any crop or other uses not included in the AWMP and corresponding fieldspecific rates of application. 5. A change in the type of manure system including but not limited to switching from a dry to a liquid manure system, switching from a liquid to a dry manure system, or changing the manure system to accommodate an animal species or type of operation not included in the scope of the current AWMP. 6. Any changes that are likely to increase the risk of nitrogen and phosphorus transport to surface waters or groundwaters. Submit at least 60 days in advance of proposed change(s). Public notice process . ODA approval ODA will public notice as described in S1.H, p. 7. Not required. ODA will public notice as described in S1.H, p. 7. Not required. ODA will notify the permittee of its final decision concerning the proposed change(s) after the public notice period ends. ODA will notify the permittee of its final decision concerning the proposed change(s) after reviewing the proposal. ODA will notify the permittee of its final decision concerning the proposed change(s) after the public notice period ends. ODA will notify the permittee of its final decision concerning the proposed change(s) after reviewing the proposal. Ankeridge Dairy AWMP Non-Substantial Change Submit at least 60 days in advance of proposed change(s) unless a different timeframe allowed by ODA. CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 16 of 24 S4. MONITORING, INSPECTION, RECORDKEEPING, AND REPORTING REQUIREMENTS S4.A. Monitoring Requirements 1. Discharge Monitoring If a discharge to surface water or groundwater occurs that is not allowed by S2.B or S2.C, p. 9, the permittee must record the following information: (a) A description and cause of the discharge; (b) The period of discharge including exact dates, times and duration of discharge; (c) An estimate of discharge volume; (d) Name or location of receiving water; and (e) Corrective steps taken, if appropriate, to reduce, eliminate or prevent reoccurrence of the discharge. 2. Analytical Monitoring The permittee must conduct the following sampling and analysis according to the following schedule: (a) Large concentrated animal feeding operations only Sample Type Manure, litter, and process waste water Analytical Parameter (i) Total nitrogen (ii) Total phosphorus Minimum Frequency Annually Exported manure, litter, and process waste water Soil from land application area(s) (i) Total nitrogen (ii) Total phosphorus Annually (i) Total nitrogen (ii) Total phosphorus Once every 5 years from all fields where manure, litter, or process waste water is applied. Sample Method Sample according to guidance contained in NRCS 590 or 633 practice standard. Sample according to guidance contained in NRCS 590 or 633 practice standard. Sample according to guidance contained in PNW 570-E, EM 8832-E, or NRCS 590 practice standard. (b) Other confined animal feeding operations Sample Type Soil from land application area(s) Analytical Parameter (i) Total nitrogen (ii) Total phosphorus Minimum Frequency Once every 5 years from all fields where manure, litter, or process waste water is applied. Sample Method Sample according to guidance contained in PNW 570-E, EM 8832-E, or NRCS 590 practice standard. Note: In the event of any inconsistency between the monitoring requirements of this permit and NRCS 590, the monitoring requirements of this permit apply. The permittee should be aware that NRCS 590 monitoring frequencies may need to be followed to access or maintain federal funds. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 17 of 24 S4.B. Inspection Requirements 1. The permittee must conduct the following inspections: Item (a) Stormwater diversion devices, runoff diversion structures, animal waste storage structures, and devices channeling contaminated storm water to the waste water and manure storage and containment structures. (b) Water lines, including drinking water or cooling water lines. (c) Equipment used for land application of manure, litter, or process waste water (d) Liquid impoundments for manure and process waste water 2. S4.C. Large Concentrated Weekly and record results Other Operations Periodically Daily and record results Periodically Daily when equipment is in use and record results Weekly and record depth of manure and process waste water according to depth marker required by S2.E.3, p. 10 Periodically when equipment is in use Periodically Any deficiencies found as a result of these inspections must be corrected as soon as possible. The permittee with a large concentrated animal feeding operation must record any actions taken to correct these deficiencies and, if deficiencies are not corrected within 30 days, provide an explanation of the factors preventing immediate correction. Recordkeeping and Availability Requirements 1. The permittee must maintain all information required by this permit at the facility for at least five (5) years and make this information available to ODA upon request. 2. Upon obtaining permit coverage, must record the following information. (Note: If any of the following information is provided in the permittee’s AWMP, a separate record keeping effort is not required.) (a) (b) (c) (d) Item Date, amount, and nutrient loading of manure, litter, or process waste water applied to each field. Weather conditions at the time of application and 24 hours before and after application. Total amount of nitrogen and phosphorus actually applied annually to each field, including documentation of calculations of the total amount applied. Total amount of manure or waste water transferred or exported to other persons. (e) Description of actions taken to correct deficiencies discovered during inspections. Ankeridge Dairy AWMP Large Concentrated Required Other Operations Required Required Not required Required Required Required. Also include: (i) Date and amount of each transfer or export (ii) Name and address of each recipient (iii) Copy of the manure nutrient analysis conducted provided to the recipient [see S2.K.3, p. 11 Required (see S4.B.2, p. 17) Required Not required CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 18 of 24 S4.D. Reporting Requirements 1. 24-hour Reporting (a) If a discharge to surface water or groundwater occurs that is not allowed by Condition S2.B and S2.C, p. 9, the permittee must notify ODA within 24 hours of the discharge . The permittee must submit a written report within five (5) days to ODA. The information to be submitted is listed in the monitoring requirements (see S4.A, p. 16 above) of this permit. (b) The permittee must report to ODA within 24 hours of becoming aware of any significant physical failure at any time of a waste water control facility required under this permit. (c) The permittee must notify ODA within 24 hours of any permit noncompliance that may endanger health or the environment as described in G2.6, p. 20. 2. Annual Report (a) The permittee must submit an annual report to ODA by March 15 of each year. The annual report must include the following for the previous calendar year: (i) Maximum number and type of animals approved by ODA in the permittee’s Notice of Registration, whether in open confinement or housed under roof (e.g,, beef cattle, broilers, layers, swine weighing 55 pounds or more, swine weighing less than 55 pounds, mature dairy cows, dairy heifers, veal calves, sheep and lambs, horses, ducks, turkeys, other). (ii) Actual number of animals by type at the CAFO averaged over the year. (iii) Estimated amount of total manure, litter, process waste water and other material that comes into contact with manure generated by the CAFO (tons, gallons, cubic feet, or cubic yards). (iv) Estimated amount of total manure, litter, process waste water and other material transferred to other persons by the permittee (tons, gallons, cubic feet, or cubic yards). (v) Estimated amount of manure, bedding, litter, process waste water, and other material that comes in contact with manure applied to land by the permittee (tons, gallons, cubic feet, or cubic yards). (vi) Total number of acres for land application covered by the AWMP developed in accordance with the terms of this permit. (vii) Total number of acres under control of the permittee that were used for land application of manure, litter and process waste water. (viii) Summary of all manure, litter and process waste water discharges from the production area that have occurred, including date, time and approximate volume. (ix) A statement indicating whether the AWMP was developed or approved by a certified waste management planner. (x) As required by 40 CFR §122.42(e)(4)(viii), the concentrated animal feeding operation that discharges or proposes to discharge to waters of the U.S. must also report the following: (1) Actual crop(s) planted and actual yield(s) for each field. (2) Actual nitrogen and phosphorus content of the manure, litter, and process waste water. (3) Data used and results of calculations based on protocol in the ODA-approved AWMP. (4) Amount of manure litter, and process waste water applied to each field during the previous 12 months. (5) Results of soil testing for nitrogen and phosphorus if testing was performed. (6) Amount of any supplemental fertilizer applied. (b) The annual report must be signed and certified by the permittee or permittee’s authorized representative with the following statement: “I certify, under penalty of law, that this document and all attachments were prepared under my direct supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the person or persons who manage the system, or those persons directly responsible for gathering the information, the information submitted is, to the best of my knowledge and belief, true, accurate, and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fines and imprisonment for knowing violations.” Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 19 of 24 S4.E. Additional Monitoring 1. ODA may establish specific monitoring requirements in addition to those contained in this permit by administrative order. An administrative order is an agency action expressed in writing directed to a named person or named persons (ORS 183.310). 2. If a permittee experiences two or more discharges within a 24-month period that are not associated with a 25year, 24-hour or greater rainfall event, ODA may require surface water and/or groundwater quality monitoring or transfer the permittee to an individual permit. Monitoring for the following parameters may be required: bacteria, total suspended solids, total Kjeldahl nitrogen, biochemical oxygen demand, and other nutrient indicators. If ODA waives the additional monitoring requirements because such monitoring would be impracticable or not likely to produce useful information, ODA will set out the basis for the decision in writing and make the decision available to interested parties. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 20 of 24 GENERAL CONDITIONS G1. Noncompliance reporting requirements 1. If for any reason, the permittee does not comply with, or will be unable to comply with any of the requirements or conditions specified in the permit, the permittee must, at a minimum, provide ODA with the following information: (a) A description of the nature and cause of noncompliance, including the quantity and quality of any unauthorized waste discharges; (b) The period of noncompliance, including exact dates and times, and the anticipated time when the permittee will return to compliance; and (c) The steps taken, or to be taken to reduce, eliminate, and prevent recurrence of the noncompliance. 2. In addition, the permittee must take immediate action to stop, contain, and clean up any unauthorized discharges and take all reasonable steps to minimize any adverse impacts to waters of the state and correct the problem. The permittee must notify ODA by telephone so that an investigation may be made to evaluate any resulting impacts and the corrective actions taken to determine if additional action should be taken. 3. Compliance with these requirements does not relieve the permittee from responsibility to maintain continuous compliance with the conditions of this permit or resulting liability for failure to comply G2. Additional reporting requirements [40 CFR §122.41(1)] 1. Planned changes. The permittee shall give notice to the director as soon as possible of any planned physical alterations or additions to the permitted facility. Notice is required only when: (a) The alteration or addition to a permitted facility may meet one of the criteria for determining whether a facility is a new source in §122.29(b); or (b) The alteration or addition could significantly change the nature or increase the quantity of pollutants discharged. This notification applies to pollutants which are subject neither to effluent limitations in the permit, nor to notification requirements under §122.42(a)(1). (c) The alteration or addition results in a significant change in the permittee’s sludge use or disposal practices, and such alteration, addition, or change may justify the application of permit conditions that are different from or absent in the existing permit, including notification of additional use or disposal sites not reported during the permit application process or not reported pursuant to an approved land application plan; 2. Anticipated noncompliance. The permittee shall give advance notice to the director of any planned changes the permitted facility or activity which may result in noncompliance with permit requirements. 3. Transfers. This permit is not transferable to any person except after notice to the director. The director may require modification or revocation and reissuance of the permit to change the name of the permittee and incorporate such other requirements as may be necessary under the Clean Water Act (See §122.61; in some cases, modification or revocation and reissuance is mandatory.) 4. Monitoring reports. Monitoring results must be reported at the intervals specified elsewhere in this permit. (a) Monitoring results must be reported on a Discharge Monitoring Report (DMR) or forms provided or specified by the director for reporting results of monitoring of sludge use or disposal practices. (b) If the permittee monitors any pollutant more frequently than required by the permit using test procedures approved under 40 CFR Part 136, or another method required for an industry-specific waste stream under 40 CFR subchapters N or O, the results of such monitoring must be included in the calculation and reporting of the data submitted in the CMR or sludge reporting form specified by the director. (c) Calculations for all limitations which require averaging of measurements must utilize an arithmetic mean unless otherwise specified by the director in the permit. 5. Compliance schedules. Reports of compliance or noncompliance with, or any progress reports on, interim and final requirements contained in any compliance schedule of this permit must be submitted no later than 14 days following each schedule date. 6. Twenty-four hour reporting. (a) The permittee shall report any noncompliance which may endanger health or the environment. Any information must be provided orally within 24 hours from the time the permittee becomes aware of the circumstances. A written submission must also be provided within 5 days of the time the permittee becomes aware of the circumstances. The written submission must contain a description of the noncompliance and its cause; the period of noncompliance, including exact dates and times, and if the noncompliance has not been Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 21 of 24 7. 8. corrected, the anticipated time it is expected to continue; and steps taken or planned to reduce, eliminate, and prevent reoccurrence of the noncompliance. (b) The following must be included as information which must be reported within 24 hours under this paragraph. (i) Any unanticipated bypass which exceeds any effluent limitation in the permit. (See §122.41(g) or condition G16, p. 23.) (ii) Any upset which exceeds any effluent limitation in the permit. (See §122.41(n) or condition G17, p. 24.) (iii) Violation of a maximum daily discharge limitation for any of the pollutants listed by the director in the permit to be reported within 24 hours. (See §122.44(g).) (c) The director may waive the written report on a case-by-case basis for reports under paragraph G2.6(b) of this section if the oral report has been received within 24 hours. Other noncompliance. The permittee shall report all instances of noncompliance not reported under paragraphs G2.4, 5, and 6 of this section, at the time monitoring reports are submitted. The reports must contain the information listed in paragraph G2.6 of this section. Other information. Where the permittee becomes aware that it failed to submit any relevant facts in a permit application, or submitted incorrect information in a permit application or in any report to the director, it shall promptly submit such facts or information. G3. Duty to comply [40 CFR §122.41(a)] The permittee must comply with all conditions of this permit. Any permit noncompliance constitutes a violation of the Clean Water Act and is grounds for enforcement action; for permit termination, revocation and reissuance, or modification; or denial of a permit renewal application. 1. The permittee shall comply with effluent standards or prohibitions established under section 307(a) of the Clean Water Act for toxic pollutants and with standards for sewage sludge use or disposal established under section 405(d) of the CWA within the time provided in the regulations that establish these standards or prohibitions or standards for sewage sludge use or disposal, even if the permit has not yet been modified to incorporate the requirement. 2. The Clean Water Act provides that any person who violates section 301, 302, 306, 307, 308, 318 or 405 of the Act, or any permit condition or limitation implementing any such sections in a permit issued under section 402, or any requirement imposed in a pretreatment program approved under sections 402(a)(3) or 402(b)(8) of the Act, is subject to a civil penalty not to exceed $25,000 per day for each violation. The Clean Water Act provides that any person who negligently violates sections 301, 302, 306, 307, 308, 318, or 405 of the Act, or any condition or limitation implementing any of such sections in a permit issued under section 402 of the Act, or any requirement imposed in a pretreatment program approved under section 402(a)(3) or 402(b)(8) of the Act, is subject to criminal penalties of $2,500 to $25,000 per day of violation, or imprisonment of not more than 1 year, or both. In the case of a second or subsequent conviction for a negligent violation, a person shall be subject to criminal penalties of not more than $50,000 per day of violation, or by imprisonment of not more than 2 years, or both. Any person who knowingly violates such sections, or such conditions or limitations is subject to criminal penalties of $5,000 to $50,000 per day of violation, or imprisonment for not more than 3 years, or both. In the case of a second or subsequent conviction for a knowing violation, a person shall be subject to criminal penalties of not more than $100,000 per day of violation, or imprisonment of not more than 6 years, or both. Any person who knowingly violates section 301, 302, 303, 306, 307, 308, 318 or 405 of the Act, or any permit condition or limitation implementing any of such sections in a permit issued under section 402 of the Act, and who knows at that time that he thereby places another person in imminent danger of death or serious bodily injury, shall, upon conviction, be subject to a fine of not more than $250,000 or imprisonment of not more than 15 years, or both. In the case of a second or subsequent conviction for a knowing endangerment violation, a person shall be subject to a fine of not more than $500,000 or by imprisonment of not more than 30 years, or both. An organization, as defined in section 309(c)(3)(B)(iii) of the CWA, shall, upon conviction of violating the imminent danger provision, be subject to a fine of not more than $1,000,000 and can be fined up to $2,000,000 for second or subsequent convictions. 3. Any person may be assessed an administrative penalty by the Administrator for violating section 301, 302, 306, 307, 308, 318 or 405 of this Act, or any permit condition or limitation implementing any of such sections in a permit issued under section 402 of this Act. Administrative penalties for Class I violations are not to exceed $10,000 per violation, with the maximum amount of any Class I penalty assessed not to exceed $25,000. Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 22 of 24 Penalties for Class II violations are not to exceed $10,000 per day for each day during which the violation continues, with the maximum amount of any Class II penalty not to exceed $125,000. G4. Compliance with other laws and statutes Nothing in the permit will be construed as excusing the permittee from compliance with any applicable federal, state, or local statutes, ordinances, or regulations. G5. Property rights [40 CFR §122.41(g)] This permit does not convey any property rights of any sort, or any exclusive privilege. G6. Duty to reapply If the permittee wishes to continue an activity regulated by this permit after the expiration date of this permit, the permittee must apply for a new permit or renewal permit. The application must be submitted at least 180 days before the expiration date of this permit. The director may grant permission in writing to submit an application less than 180 days in advance but no later than the permit expiration date. G7. Need to halt or reduce activity not a defense [40 CFR §122.41(c)] It shall not be a defense for a permittee in an enforcement action that it would have been necessary to halt or reduce the permitted activity in order to maintain compliance with the conditions of this permit. G8. Duty to mitigate [40 CFR §122.41(d)] The permittee shall take all reasonable steps to minimize or prevent any discharge or sludge use or disposal in violation of this permit which has a reasonable likelihood of adversely affecting human health or the environment. G9. Proper operation and maintenance [40 CFR §122.41(e)] The permittee shall at all times properly operate and maintain all facilities and systems of treatment and control (and related appurtenances) which are installed or used by the permittee to achieve compliance with the conditions of this permit. Proper operation and maintenance also includes adequate laboratory controls and appropriate quality assurance procedures. This provision requires the operation of back-up or auxiliary facilities or similar systems which are installed by a permittee only when the operation is necessary to achieve compliance with the conditions of the permit. G10. Permit actions 1. This permit may be modified, revoked and reissued, or terminated for cause. The filing of a request by the permittee for a permit modification, revocation and reissuance, or termination, or a notification of planned changes or anticipated noncompliance does not stay any permit condition. [40 CFR §122.41(f)] 2. After notice, registration under this permit may be modified or revoked as it applies to any person for cause as follows: (a) Violation of any terms or conditions of the permit, (b) Failure of the permittee to disclose fully all relevant facts, or misrepresentations of any relevant facts by the permittee during the permit issuance process and during the life of the permit; (c) Failure to pay permit fees required by Oregon Administrative Rule when due; (d) Information indicating that the permitted operation poses a threat to human health or welfare; (e) A change in ownership or control of the operation, or (f) Other causes listed in 40 CFR §122.62 and 122.63. 3. Modification or revocation of coverage under this permit as it applies to any person may be initiated by ODA. 4. Issuance of coverage under an individual permit may be initiated by ODA in accordance with condition S1.F Individual Permit Coverage, p. 7. G11. Change of Ownership or Control The permittee must notify ODA in writing thirty (30) days prior to a change in facility ownership or control. G12. Duty to provide information [40 CFR §122.41(h)] The permittee shall furnish to the director, within a reasonable time, any information which the director may request to determine whether cause exists for modifying, revoking and reissuing, or terminating this permit or to determine Ankeridge Dairy AWMP CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 23 of 24 compliance with this permit. The permittee shall also furnish to the director upon request, copies of records required to be kept by this permit. G13. Inspection and entry [40 CFR §122.41(i)] The permittee shall allow the director, or an authorized representative (including an authorized contractor acting as a representative of the Administrator), upon presentation of credentials and other documents as may be required by law, to: 1. Enter upon the permittee's premises where a regulated facility or activity is located or conducted, or where records must be kept under the conditions of this permit; 2. Have access to and copy, at reasonable times, any records that must be kept under the conditions of this permit; 3. Inspect at reasonable times any facilities, equipment (including monitoring and control equipment), practices, or operations regulated or required under this permit; and 4. Sample or monitor at reasonable times, for the purposes of assuring permit compliance or as otherwise authorized by the Clean Water Act or state law, any substances or parameters at any location. G14. Monitoring and records [40 CFR §122.41(j)] 1. Samples and measurements taken for the purpose of monitoring must be representative of the monitored activity. 2. Except for records of monitoring information required by this permit related to the permittee's sewage sludge use and disposal activities, which must be retained for a period of at least five years (or longer as required by 40 CFR part 503), the permittee shall retain records of all monitoring information, including all calibration and maintenance records and all original strip chart recordings for continuous monitoring instrumentation, copies of all reports required by this permit, and records of all data used to complete the application for this permit, for a period of at least 3 years from the date of the sample, measurement, report or application. This period may be extended by request of the director at any time. 3. Records of monitoring information must include: (a) The date, exact place, and time of sampling or measurements; (b) The individual(s) who performed the sampling or measurements; (c) The date(s) analyses were performed; (d) The individual(s) who performed the analyses; (e) The analytical techniques or methods used; and (f) The results of such analyses. 4. Monitoring must be conducted according to test procedures approved under 40 CFR Part 136 unless another method is required under 40 CFR subchapters N or O. 5. The Clean Water Act provides that any person who falsifies, tampers with, or knowingly renders inaccurate any monitoring device or method required to be maintained under this permit shall, upon conviction, be punished by a fine of not more than $10,000, or by imprisonment for not more than 2 years, or both. If a conviction of a person is for a violation committed after a first conviction of such person under this paragraph, punishment is a fine of not more than $20,000 per day of violation, or by imprisonment of not more than 4 years, or both. G15. Signatory requirement [40 CFR §122.21(k)] 1. All applications, reports, or information submitted to the director shall be signed and certified. (See §122.22) 2. The CWA provides that any person who knowingly makes any false statement, representation, or certification in any record or other document submitted or required to be maintained under this permit, including monitoring reports or reports of compliance or non-compliance shall, upon conviction, be punished by a fine of not more than $10,000 per violation, or by imprisonment for not more than 6 months per violation, or by both. G16. Bypass [40 CFR §122.41(m)] 1. Definitions. (a) Bypass means the intentional diversion of waste streams from any portion of a treatment facility. (b) Severe property damage means substantial physical damage to property, damage to the treatment facilities which causes them to become inoperable, or substantial and permanent loss of natural resources which can reasonably be expected to occur in the absence of a bypass. Severe property damage does not mean economic loss caused by delays in production. Ankeridge Dairy AWMP 2. 3. 4. CAFO NPDES General Permit #01-2009 Expiration Date: May 31, 2014 Page 24 of 24 Bypass not exceeding limitations. The permittee may allow any bypass to occur which does not cause effluent limitations to be exceeded, but only if it also is for essential maintenance to assure efficient operation. These bypasses are not subject to the provisions of paragraphs G17.3 and 4 of this section. Notice (a) Anticipated bypass. If the permittee knows in advance of the need for a bypass, it shall submit prior notice, if possible at least ten days before the date of the bypass. (b) Unanticipated bypass. The permittee shall submit notice of an unanticipated bypass as required in paragraph G2.6 of this section (24-hour notice). Prohibition of bypass. (a) Bypass is prohibited, and the director may take enforcement action against a permittee for bypass, unless: (i) Bypass was unavoidable to prevent loss of life, personal injury, or severe property damage; (ii) There were no feasible alternatives to the bypass, such as the use of auxiliary treatment facilities, retention of untreated wastes, or maintenance during normal periods of equipment downtime. This condition is not satisfied if adequate back-up equipment should have been installed in the exercise of reasonable engineering judgment to prevent a bypass which occurred during normal periods of equipment downtime or preventive maintenance; and (iii) The permittee submitted notices as required under paragraph G16.3 of this section. (b) The director may approve an anticipated bypass, after considering its adverse effects, if the director determines that it will meet the three conditions listed above in G16.4(a) of this section. G17. Upset [40 CFR §122.41(n)] 1. Definition. Upset means an exceptional incident in which there is unintentional and temporary noncompliance with technology based permit effluent limitations because of factors beyond the reasonable control of the permittee. An upset does not include noncompliance to the extent caused by operational error, improperly designed treatment facilities, inadequate treatment facilities, lack of preventive maintenance, or careless or improper operation. 2. Effect of an upset. An upset constitutes an affirmative defense to an action brought for noncompliance with such technology based permit effluent limitations if the requirements of paragraph G17.3 of this section are met. No determination made during administrative review of claims that noncompliance was caused by upset, and before an action for noncompliance, is final administrative action subject to judicial review. 3. Conditions necessary for a demonstration of upset. A permittee who wishes to establish the affirmative defense of upset shall demonstrate, through properly signed, contemporaneous operating logs, or other relevant evidence that: (a) The upset occurred and that the permittee can identify the cause(s) of the upset; (b) The permitted facility was at the time being properly operated; and (c) The permittee submitted notice of the upset as required in paragraph G2.6(b)(ii) of this section (24 hour notice). (d) The permittee complied with any remedial measures required under paragraph G8 of this section. 4. Burden of proof. In any enforcement proceeding the permittee seeking to establish the occurrence of an upset has the burden of proof. Ankeridge Dairy AWMP Section 5 REFERENCES PUBLICATIONS AND SOFTWARE Crop Fertilizer Recommendations Nutrient Requirements for Dairy Cattle 7th Ed, 2001 Natl. Research Council http://www.nap.edu/openbook.php?isbn=0309069971 OSU EM8978-E, June 2009 (w. of Cascades); PNW615, 2010 (e. of Cascades) http://extension.oregonstate.edu/catalog/details.php?sortnum=0134&name=Fertilizer+Gu ides Extension Service Publications Field Corn, Eastern Oregon-East of the Cascades, FG 71, January 2000 http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/20643/fg71-e.pdf Nitrogen Uptake and Utilization by Pacific Northwest Crops, PNW 513, December 1999 http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/20719/pnw513.pdf Manure Application Rates for Forage Production, OSU EM 8585-E, July 2007 http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/20536/em8585-e.pdf Monitoring Soil Nutrients Using a Management Unit Approach, PNW 570-E, October 2003, http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/20762/pnw570-e.pdf Post-Harvest Soil Nitrate Testing for Manured Croppings Systems, EM 8832-E, May 2003, http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/20221/em8832-e.pdf Silage Corn, Western Oregon, EM 8978-E, June 2009 http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/20610/em8978-e.pdf Soil Test Interpretation Guide, OSU EC 1478, August 1999 http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/22023/ec1478.pdf Feed Management Feed Management, A tool for balancing nutrients on dairies and other livestock operations, EM 8913-E, July 2006 http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/20501/em8913-e.pdf Manure Application Setback Features/Distances CAFO General Permit #1 http://oregon.gov/ODA/NRD/docs/pdf/cafo_gnlpmt.pdf Manure Nutrient Availability Waste Utilization Jobsheet 633 OR-JS, Oregon USDA-NRCS, May 2003 http://efotg.sc.egov.usda.gov/references/public/OR/633js042707.pdf Ankeridge Dairy AWMP Page 5-27 Section 5 REFERENCES Phosphorus Assessment Agronomy Technical Note No. 26: The Phosphorus Index, Oregon NRCS, June 2008 ftp://ftp-fc.sc.egov.usda.gov/OR/Technical_Notes/Agronomy/Agronomy26.pdf Agricultural Phosphorus Management Using the Oregon/Washington Phosphorus Indexes http://eesc.orst.edu/agcomwebfile/edmat/em8848-e.pdf Practice Standards Oregon NRCS Nutrient Management Standard (590), May 2008 http://efotg.nrcs.usda.gov/references/public/OR/590std.doc Record Keeping Oregon ODA CAFO Recordkeeping Calendar, May 2013 http://www.oregon.gov/ODA/NRD/pages/cafoprogdocs.aspx Oregon ODA Recordkeeping Workbook, ODARKversion4.0, March 2013 http://www.oregon.gov/ODA/NRD/pages/cafoprogdocs.aspx Water Quality/Quantity Oregon NRCS Water Quality Technical Note No. 1: Water Quality Indicator Tools, October 2000, ftp://ftp-fc.sc.egov.usda.gov/OR/Technical_Notes/Water%20Quality/WaterQual01.pdf Software Revised Universal Soil Loss Equation, RUSLE2 version 1.26.6.4, October 2006 http://fargo.nserl.purdue.edu/rusle2_dataweb/RUSLE2_Index.htm Oregon Animal Waste Management Planning Tool, ORAWMv4.5, May 2013 http://www.oregon.gov/ODA/NRD/pages/cafoprogdocs.aspx Oregon ODA Recordkeeping Workbook, ODARKv4.0, March 2013 http://www.oregon.gov/ODA/NRD/pages/cafoprogdocs.aspx Ankeridge Dairy AWMP Page 5-28 Section 5 REFERENCES ORAWM WORKBOOK OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) 50212014 Version 4.8 CLIENT: Ankeridge Dairy (All Facilities) I l'lzD Northwest Ag (Innsulling - am ANIMAL WASTE MANAGEMENT SYSTEM INVENTORY ANIMAL INVENTORY Milk Production in PoundleOWIDay= I 70 Number Average Animal Nutrient Production Annual of Weight Units (Istday/1000 lh. Animal Unit] (lhstay) Manure Days Days Days Off Type qunimal Animals (Ibs.) (11000113.) Con?ned Gran-d Farm (Holsteml 1,000 1.300 1.3000 0.70 0.12 0.3 91000 156.26 418.34 1.70 365 0 0 200 1.300 260.0 0.30 0.04 0.10 78.00 10.92 26.00 0.92 365 0 0 HEIFERS [12-24 Months} 50 1,000 50.0 0.27 0.05 0.12 13.30 2.28 (3.00 0.90 365 0 0 ?'12 Months] 500 250 125.0 0.42 0.05 0.11 52.50 6.75 13.75 1.34 365 0 0 41144444 44 1.750 953 1,735.0 0.01 0.10 0.27 1053.3 176.2 404.1 1.5 GRAZING PERIOD Percent 01' Vlunth and Number qunimals Grazi of Animal .- FEB MAR APR MAY 0% 0% 0% 0% 1000 1000 1000 1000 0% 0"o 0"0 0% 200 2-500 500 500 500 WILKER (1101500171) MILKI-LR (DRY) (12?24 Months) l-12 N1011th Page 1 of 3 Ankeridge Dairy 2014 Ankeridge Dairy AWMP Page 5?29 CLIENT: ASSISTED BY: Ankeridge Dairy (All Facilities) Northwest Ag Consulting - Tom Thomson REFERENCES OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) Version 4.8 ANIMAL WASTE MANAGEMENT SYSTEM INVENTORY WEATHER STATION TILLAMOOM AREAS CONTRIBUTING RUNOFF TO LIQUID STORAGE FACILITY 251- r-24Hr (Loo Lot Runoff Factors as Description of Runoff Area Area in SF 95.00 a Percent of Paved Lot Area 0 Average ?0mm? ?"1195 Precipitation 15 paved lot scraped daily? N0 Month Precipim?ou Evaporation Paved unpaved qupm-ed Lot Area 0 October 0' I AZ 50% 20%, Roof Anna 0 November 13.71 0.75 60% 25% Surface Area of Silage Storage 0 December 13.94 0.60 60% 25% Does Silage Seepage Drain to Storage Facility? (YIN) YES January 13.09 0.48 60% 25% Total Runofl'Arca Contributing [0 Liquid Storage 0 February 111.79 0.78 50%. 25? 9 March 9.90 1.26 45% 15% USE THAT ENTERS LIQITID STORAGE FACILITY April 6.81 1.911 40% 15% I . ml)" or Gallons of l?oml alter '1 Mel Walter av 4?84 3'22 40% 10% Number of waShCS PCT Water Used Use per Day, 173:: per Day, June 3.41 3.411 3591] 10%? Tvpt? of ??ater USE Animals Day per ??aSh-Day Gallons (Tuhic Feet Julv 1.64 3.91 30% 0% Animal Washn-ater 1000.0 3 0.25 750 100.3 August 1.42 3.52 40% 10% ui meut Wash 3 500.00 1500 200.5 September 3.68 2.54 45% 15% Flushwuter 0 0.00 0 0.0 Annual 90.39 23.78 Miscellaneous 3 100.00 300 40.1 2550 340,9 CROP DATA Percent Nutrients Removed 111 Pounds per Acre Dry Matter Nin'ogen Phosphorous Potassium Field Number Acres Crop (UM) Yield Units Target Yield P205 K20 Anker] 85.3 Perenmal Hayfpasturewed-High Intensity) 100" 0 Ton mm 406 128 337 Ankel? 2 102.6 Perenm?' Hay/Pastureimed High '?tenSi?EW 100% 'l'on 7.00 406 128 337 Auk?. 3 1092 Perennial Intensity) 100W.J {on 100 406 128 337 Aul'dermuuer 106.8 Perenmal HaWPaswreIMed?H'gh Intemity) 1000/0 T011 7.00 406 128 337 Farm Total Acrcs- 403.9 Page 2 01'3 Ankeridge Dairy AWMP Page 5?30 511212014 Ankeridge Dairy 2014 Section 5 REFERENCES OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) 5?12?2014 Version 4.8 Ankeridge Dairy (All Facilities) ASSISTED BY: Northwest Ag Consulting Tom Thomson I ANIMAL WASTE MANAGEMENT SYSTEM INVENTORY BEDDING VOLUME Amount total olal Unit Weight Needed Volume Volume Weight iv of Animal Type of Bedding i-?ae-ility Bedding,r Material Lbst?l? Ci-?x?Day L-bsr'DaV (Holstein) Free Stall Composted Manure 36.00 3.00 0.08 108 3,900 (DRY) F'ee 5m? Manure 36.00 3.00 0.08 22 780 (I294 Months) Free Stall Composted Manure 36.00 3.00 0.08 4 CALVES [1?12 Months) Con?nEd SEWdust 12.00 3.10 0.26 32 388 i 7 SOLIDS SEPARATION FACTOR Volume of Volume of Volume of Volume of Accumulated Density ot? Weight of Separation Solids Solids in Manure in Manure in Sludge in Separated Separated Factor Separated Liquids Liquids Solids Storage Solids Solids Type of Animal Type of Separator CF fDaV Lbs/Day lols?rein) Dry SEW P9 SYStem 0"n 2324 ?215 0 11275 36 {l MIL-KER (DRY) Dry PE SYStem 0% 0 261 239 62 36 (12-24 Months) DW 5573 PB SYStem 00CALVFS (1-12 Months) Dry Scrape System 805.754 Total 160 2,674 1533 1 34 1,368 5,754 Page 3 of 3 Ankeridge Dairy 2014 Ankeridge Dairy AWMP Page 5?31 Section 5 Section 5 REFERENCES OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) 5?12?2014 Version 4.3 Ankeridge Dairy (All Facilities) ASSISTED BY: Northwest Ag Consulting Tom Thomson ANIMAL WASTE MANAGEMENT SYSTEM PRODUCTION VOLUMES Runoff in Cubic Foot Paved Unpaved Silage Pit Roof AICEI. Slab Lot AIca SUIfuec facility Manure 'l'otal Square 1" Square 1" eel Square l'eei Area, 31' Water Use Solids Liquids Bedding Solids Separaied Solids 1n Liquids Solids 1000 Liquids Month 0 0 0 0 Cubic Feet Cubic Feet Cubic FeeL Cubic Feel Pounds Cubic Feel Pounds Cubic Feel Pounds Cubic Feel Cubic Feel October 0 0 0 2.596 10.568 10.360 72.314 5.160 161,743 4,955 178,374 82,879 2,983,654 4955 96044 November 0 0 0 2.470 10.227 10,026 69,981 4,994 156,525 4,795 172,620 80,206 2,887,407 4.795 92.903 December 0 0 0 2,596 10,568 10,360 72,314 5,160 161,743 4,955 178,374 82,879 2,983,654 4,955 96,044 January 0 0 0 2,596 10,568 10,360 72,314 5,160 161,743 4,955 178,374 82,879 2,983,654 4,955 96,044 February 0 0 0 2,343 9,545 9,358 65,315 4,661 146,090 4,475 161,1 12 74,859 2,694,913 4,475 86,747 March 0 0 0 2,596 10,568 10,360 72,314 5,160 161,743 4,955 178,3 74 82,879 2,983,654 4,955 96,044 April 0 0 0 2,470 10.227 10.026 69.981 4.994 156.525 4.795 172.620 80.206 2,887,407 4,795 92,903 Mav 0 0 0 0 10,568 10,360 72,314 5,160 161 ,743 4,955 178,374 82,879 2,983,654 4,955 93,447 June 0 0 0 0 10,227 10,026 6.9.981 4,994 156,525 4,795 172,620 80,206 2,887,407 4,795 90,433 .1111)! 0 0 0 0 10,568 10,360 72,314 5,160 161,743 4,955 178,374 82,879 2,983,654 4.955 93,447 August 0 0 0 0 10,568 10,360 72,314 5,160 161,743 4,955 178,374 82,879 2,983,654 4.955 93.447 September 0 0 0 2,470 10,227 10,026 69,981 4,994 156,525 4,795 172,620 80.206 2,887,407 4,795 92,903 Annual 0 0 0 20,138 124,432 121,985 351,433 00,757 1.904333 50,339 975,337 35,130,119 58.339 1,120,407 Annual Gallons 0 0 0 150,333 930,750 912,449 6.568.721 454,465 435,377 7.299.258 430,377 8.380.641 DAILY NUTRIENT PRODUCTION oFNuirienls From ofNulriean from oFNquienls From Grazing Con lined SOLIDS GRAZ-DG Manure Manure Type of Animal P305 K20 P205 K20 P205 K10 Gallonszr Cubic l-eelfYI? N111..KFR (Holstein) 836.63 233.64 71301 0.00 0.00 0.00 0.00 0.00 0,00 0 808,548 MILKFR (DRY) 71.71 16.33 44.31 0.00 0.00 0.00 0.00 0.00 0 00 0 87,308 (12424 Monthq] 12.23 3.40 10.23 0.00 0.00 0.00 0.00 0.00 0 [10 0 16.425 CALVES (1-12 Months) 9.65 2.02 4.69 36.06 17.90 37.08 0.00 0.00 0 00 0 61,138 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 00 0 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 00 0 0 0.00 0.00 0,00 0.00 0.00 0.00 0.00 0.00 0,00 0 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0 0.00 0,00 0,00 0.00 0.00 0.00 0.00 0.00 0,00 0 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 00 0 0 Tolal- 0 973,419 Page 1 of 2 Ankeridge Dairy 2014 ORAWMV4.8.XIS Ankeridge Dairy AWMP Page 5?32 Section 5 REFERENCES OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) 5?12?2014 Version 4.3 C151le Ankeridge Dairy (All Facilities) ASSIST BY: Northwest Ag Consulting Tom Thomson ANIMAL WASTE MANAGEMENT SYSTEM PRODUCTION NUTRIENT PRODUCTION Pounds from Pounds 011711016an I?rom Pounds ol?Nulrienls from Total Pounds oi?Nulriean from LIQUIDS SOLIDS GRAZING AH.- SOURCES Momh P205 K20 P205 K20 P205 K20 P205 K20 ()etnher 28,837 7,917 23,939 1,1 18 555 1,149 0 (1 0' 29,955 8,472 25,089 November 27,907 7,662 23,167 1,082 537 1.1 12 0 0 0 28988 8.199 24,279 December 28,837 7,917 23,939 1,1 18 555 1.149 0 0 0 29,955 8,472 25,089 Januarv 28,837 7,917 23,939 1.1 18 555 1,149 0 (J 0 29,955 8,472 25,089 lfebruarv 26,046 7,151 21,623 1,010 501 1,038 0 0 0 27,056 7,652 22,661 March 28.837 7.917 23,939 1,118 555 1,149 0 0 0 29,955 8,472 25089 April 27,907 7,662 23,167 1,082 537 1,112 0 0 28,988 8,199 24,279 Mav 28,837 7,917 23,939 1,118 555 1,149 0 0 0 29,955 8,472 25089 June 27,907 7,662 23,167 1,082 537 1,1 12 1} 1} 0' 28,988 8,199 24,279 July 28,837 7,917 23,939 1,1 18 555 1,149 0 0 0 29955 8.472 25,089 August 28,837 7,917 23,939 1,1 18 555 1,149 0 0 0 29,955 8,472 25,089 September 27,907 7,662 23,167 1,082 537 1.1 12 0 0 0 28988 8.199 24,279 Annual 339,530 93,216 281,865 13,161 6,534 13,534 0 0 0 352.692 99,750 295,400 Page 2 of 2 Ankeridge Dairy 2014 Ankeridge Dairy AWMP Page 5?33 Section 5 REFERENCES OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) 512/2014 Version 4.8 Ankeridge Dairy (All Facilities) ASSISTED EV: Northwest Ag Consulting - Tom Thomson ANIMAL WASTE MANAGEMENT SYSTEM STORAGE SOLIDS STACKIXG FACILITY SOLIDS VOLITIVIE STACKEI) TN FACILITY Solids Solids Normal Number Manure Bedding to Store to Store Runoff Soi ids Storage Facil itv Parameters Value Month of Den-=5 CF CF CF Tons Storage Period. Dave: 84 October 31 4,154 801 2,477 89 2,030 Stacking Width, in Beer 0 November 30 4.020 775 2,398 86 4,858 Stacking Height, II in Feeti 0.00 December 3 4,154 801 2.477 4,940 Wall Height, hill Feet= ?.00 Jz-mum 31 4,154 801 2,477 89 4,638 Stack Side Slope (Xi 0.00 February 28 3,752 723 2,238 81 3,823 misting Storage, Cubic. Feet: 9 .285 March 3 4,154 801 2.4?7 89 2.105 Surface Area of Existing Storage, SF: 17,009 April 30 4.020 775 2,398 86 1,448 25 Year-24 IInur Storm Runoff, CF: 7,670 May 3 4,1 54 801 2,477 89 686 Volume Needed. Cubic. feet: 6.780 June 30 4,020 775 2,398 86 483 Design Volume, Cubic 0 Juli: 31 4.154 801 2,477 89 0 Is Facility.- Covered'? YES August 31 4,154 801 2,477 89 2m Volume Reduction Factor: 0.50 September 30 4,020 775 2,398 86 782 Annual 365 48,91 0 9,429 29,169 1.050 25.995 _1 Width. l?o?Fccl Storage Period 84 Days Volume ofSolids to Store 5781) Cubic Feet Stack Ileighl, II I) Feel Wall Height, 0 Feet 7 1 -- Length, 0 Feet -- Ankeridge Dairy 2014 Ankeridge Dairy AWMP Page 5?34 REFERENCES OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) Version 4.8 CLIENT: Ankeridge Dairy (All Facilities) ASSISTED BY: Northwest Ag Consulting - Tom Thomson ANIMAL WASTE MANAGEMENT SYSTEM STORAGE TANK TANK Number Rain-Evatp Rain-Evap Normal Wa-lste Waste ofdays on Tank on Existing Runoff W?ashwutcr Solids to Store to Store Tank Parameters Value Month CF Storage, CF CF CF CF CF Gallons Storage Period, Days= 77 (Ilc-tober 31 0 13,619 2,030 10,568 82,879 109,096 816,094 Tun}; Fccl= 0 November 30 0 30,749 4,858 10,227 80,206 126,040 942,844 December 31 0 31,650 4,940 10,568 82,879 130,037 972,747 Existing Storage, Cubic Feet: 358,243 Januarv 31 0 29,918 4,638 10,568 82,879 128,004 957,538 Surface Area 01' l-lx lsling Storage, 28,471 February 28 0 23,750 3,823 9,545 74,859 1 1 1,977 837,648 25 Year-24 Hour Storm Rullolf, 7,670 March 3] 0 20,499 2,105 10,568 82,879 116,051 868,125 Volume Needed, Cubic Feet: 357,055 April 30 0 11,649 1,448 10,227 80,206 103,530 774,460 Design Volume, Cubic Feet: 0 Maw 31 0 3,844 686 10,568 82,879 97,977 732,919 13 ank Covered??l NO June 30 0 24 483 10,227 80,206 90,940 680,279 Tank Dimensions? Circular July 31 0 -5,386 0 10.5 68 82,879 88,062 658,747 August 31 0 4,982 201 10,568 82,879 88,666 663,270 September 30 0 2,705 782 10,227 80,206 93,920 702,572 Annual 365 0 158 038 25,995 124,432 975,837 1,284,302 9,607,244 ?1 1.0 Feet 1 Depth 1] Feet Minimum Freeboard 1.0 Feel 25Yr?24Hr Storm Precipitation 2 6 Inches 25 Yr?241-1r Storm Runoff 7670 Cubic Feet 77 Day Precip - Eva-p 33_45 Inches Runoff from Normal Precipitation 12426 Cubic Feet Washwater 26784 Cubic Feet Manure 99001 Cubic Feet i? Diameter I 0 eet Ankeridge Dairy AWMP Page 5?35 Ankeridge Dairy 2014 Section 5 REFERENCES OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) 5?12?2014 Version 4.3 CLIENT: Ankeridge Dairy (All Facilities) ASSISTED BY: Northwest Ag Consulting Tom Thomson ANIMAL WASTE MANAGEMENT SYSTEM UTILIZATION NUTRIENTS AVAILABLE AFTER STORAGE Tvpe of Operation Pounds of Percent Nutrients Retained Pounds of Nutrients Nutrient DEW Nutrients Available Alter Storage Retained Alter Storage Source Type of Storage Facility P205 K20 P205 K20 P205 K20 Liquids Tank Ana'rsis 332,315 91,235 275,875 70% 85% 85% 232,620 77,550 234,494 Solids Solids Storage Name Analyse 13,161 6,534 13,534 75% 90% 90% 9,871 5,880 12,181 Grazing NONE 0 0 0 100% 100% 100% 0 0 0 NUTRIENTS AVAILABLE AFTER APPLICATION Pounds of Percent Nutrients Retained Pounds of Nutrients Nutrient Nutrients Available After ?Ur Retained After ?nr Source Type of System P205 K20 P205 K20 P205 K20 Liquids Smoking 232,620 77,550 234,494 75% 100% 100% 174,465 77,550 234,494 solids Broadcast [Incorporated 7? or more days a?ier appiicaiion] 7 9,871 5,880 12,181 70% 100% 100% 6,910 5,880 12,181 Grazing Grazing 0 0 0 85% 100% 100% 0 0 0 NUTRIENTS AVAILABLE AFTER DENITRIFICATION Location Pounds of Percent Nutrients Retained Pounds of Nutrients Nutrient Nutrients Available After Denitrification Retained A?er Denitri?cation Source Soil Drainaue Class P205 K20 P205 K20 P205 K20 Liquids We? Drain? 174,465 77,550 234,494 87% 100% 100% 151,785 77,550 234,494 Solids We? Drained 6,910 5,880 12,181 87% 100% 100% 6,011 5,880 12,181 Grazing Drain? 0 0 0 87% 100% 100% 0 0 0 TOTAL- 157, 796 83,430 246,675 Page 1 0f 2 Ankeridge Dairy 2014 Ankeridge Dairy AWMP Page 5?36 Section 5 CLIENT: Ankeridge Dairy (All Facilities) ASSISTED BY: Northwest Ag Consulting 7 Tom Thomson REFERENCES Version 4.8 OREGON ANIMAL WASTE MANAGEMENT DESIGN AID (ORAWM) ANIMAL WASTE MANAGEMENT SYSTEM UTILIZATION Section 5 5f12f2014 PERCENT OF MANURE TO BE APPLIED TO FIELD AND UTILIZATION ACRES NEEDED BASED ON I NITROGEN: LIQUIDS GRAZING Pounds Acres Pounds Acres Pounds Acres Percent of Nutrients Needed for Percent of Nutrients Needed for Percent of Nutrients Needed for Field to be to be Utilization to be to be Utilization to be to be Utilization Number Acres Crop Applied Applied of Nutrients Applied Applied of Nutrients Applied Applied of Nutrients Anker 1 85.3 Perennial HaytPastureMed-High Intensity) 21% 32,056 79 21% 1,270 3 0% 0 0 Anker 2 102.6 Perennial HaytPastureMed-High Intensity) 25% 38,557 95 25% 1,527 4 0% 0 0 Anker 3 109.2 Perennial HaytPasture??ed-High Intensity) 27% 41,037 101 27% 1,625 4 0% 0 0 Aufdermauer 106.8 Perennial HanyastureMed-High Intensity) 16% 40,135 99 26% 1,590 4 0% 0 0 Off Farm 0% 0 0% 0 100% 0 TOTALS- 403.9 100% 151,785 374 100% 6,011 15 100% 0 0 NUTRIENT BALANCE BASED ON AVAILABLE ACRES NUTRIENTS APPLIED NUTRIENTS REMOVED NUTRIENT BALANCE Nitrogen, Phosphorous, Potassium, Nitrogen, Phosphorous, Potassium, Nitrogen, Phosphorous, Potassium, Field P205 K20 P205 K20 P205 K20 Number Acres Crop LbsIAcre Lbs/Acre LbsIAcre LbsIAcre Anker 1 85.3 Perennial HaytPastureMed-High Intensity273 Anker 2 102.6 Perennial HaytPastureMed-High Intensity273 Anker 3 109.2 Perennial HanyastureMed-High Intensity273 Aufdermauer 106.8 Perennial Hanyasture (Med-High Intensity273 Off Farm Page 2 of 2 Ankeridge Dairy 2014 Ankeridge Dairy AWMP Page 5?37 Section 5 REFERENCES Ankeridge Dairy AWMP Page 5?38